CN114084859A

CN114084859A - Packaging hardware for food processing

Info

Publication number: CN114084859A
Application number: CN202111420829.3A
Authority: CN
Inventors: 刘世平; 曹坤洋; 徐慧; 李攀; 路忠响
Original assignee: Henan Polytechnic Institute
Current assignee: Henan Polytechnic Institute
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-02-25
Anticipated expiration: 2041-11-26
Also published as: CN114084859B

Abstract

The invention belongs to the field of food packaging, and particularly relates to a packaging device for food processing, which comprises a bottle body arranged on a conveyor belt, wherein a bottle cap is arranged on the bottle body, supporting plates are fixedly arranged on two sides of the conveyor belt, the tops of the supporting plates on the two sides are connected with a mounting plate, a main shaft is arranged on the mounting plate in a vertically sliding manner, the bottom of the main shaft penetrates through the mounting plate and is provided with a screw cap assembly, the screw cap assembly is arranged right above the bottle cap and is used for screwing the bottle cap, a connecting assembly is rotatably arranged on the mounting plate and is sleeved on the main shaft and used for circumferentially restricting the main shaft, the connecting assembly is connected with a driving device used for driving the main shaft to rotate, the main shaft is connected with a lifting device used for driving the main shaft to vertically slide, and the packaging device has the advantages that the number of circumferential turns and the vertical movement stroke can be independently controlled so as to control the screwing stroke of the bottle cap, thereby being adapted to different bottle bodies and bottle caps.

Description

Packaging hardware for food processing

Technical Field

The invention belongs to the field of food packaging, and particularly relates to an improvement on the structure of a packaging device for food processing.

Background

After the bottled food is bottled, the bottle mouth needs to be sealed, and the rotary type sealing is a very common sealing method, wherein the rotary type sealing has the characteristics of simple structure and good sealing performance.

The filling food packaging process in the prior art usually includes an upper cover and a screwing process, namely, a bottle cover is placed on a bottle body firstly, and then the screwing process is performed, in the screwing process, the bottle cover is screwed through the up-and-down movement and the rotation movement of a cap screwing mechanism, in order to realize the up-and-down movement and the rotation movement of the cap screwing mechanism, the cap screwing mechanism is usually connected to a main shaft, the main shaft is usually a screw rod and is in threaded connection with a frame, then the main shaft is rotated through the rotation of a motor, the cap screwing mechanism is moved up and down and rotated, and the cap screwing mechanism presses the bottle cover and simultaneously screws the bottle cover under the action of friction force, because the up-and-down and rotation movements are realized through a threaded structure, the stroke of the up-and-down movement of the cap screwing mechanism can only be adjusted through the number of turns of the motor, but in the screwing process of the bottle cover, the screwing stroke of the up-and-down movement of the bottle cover is a certain value, particularly in the production of bottle bodies and bottle caps, and the lead angle of the thread is not always matched with the thread of the main shaft, so that the downward movement and the circumferential rotation stroke of the cap screwing mechanism cannot be matched.

Disclosure of Invention

The invention aims to provide a packaging device for food processing, which can independently control the circumferential turns and the vertical movement stroke so as to control the screwing stroke of a bottle cap and further adapt to different bottle bodies and bottle caps, and the technical scheme adopted by the invention is as follows to realize the aim of the invention:

a packaging device for food processing comprises bottle bodies arranged on a conveyor belt, wherein bottle caps are arranged on the bottle bodies, supporting plates are fixedly arranged on two sides of the conveyor belt, mounting plates are connected to the tops of the supporting plates on the two sides, a main shaft is arranged on the mounting plates in a vertically sliding mode, the bottom of the main shaft penetrates through the mounting plates and is provided with a cap screwing assembly, and the cap screwing assembly is arranged right above the bottle caps and used for screwing the bottle caps;

rotationally be provided with coupling assembling on the mounting panel, the coupling assembling cover is established on the main shaft for circumference restraint the main shaft, coupling assembling is connected with and is used for driving its pivoted drive arrangement, the main shaft is connected with and is used for driving its gliding elevating gear from top to bottom.

Further, coupling assembling is including following the driving wheel, be provided with the mounting hole from the driving wheel, the main shaft sets up with sliding from top to bottom in the mounting hole, the mounting hole inner wall is provided with spacing portion, the main shaft side be provided with the spacing groove of spacing portion adaptation, the main shaft passes through the spacing groove sets up with sliding from top to bottom on the spacing portion, rotationally connect from the driving wheel the mounting panel, and connect drive arrangement.

Further, be provided with the ring channel around its circumference round from the driving wheel side, the mounting panel be provided with the through-hole of ring channel inner wall adaptation, rotationally set up from the driving wheel on the through-hole, rotationally be provided with a plurality of balls on the inner wall on the ring channel, it is a plurality of the ball centers on the ring channel is annular array and distributes.

Further, follow the driving wheel and include the go-between, the go-between sets up one side of mounting panel, be provided with the bellying on the go-between, the bellying sets up in the through-hole, the bellying is kept away from one side detachably of go-between is connected with solid fixed ring, gu fixed ring with the external diameter of go-between is greater than the bellying external diameter, in order to form the ring channel, gu fixed ring with the inboard formation of go-between the mounting hole, the ball sets up on the lateral surface of bellying.

Further, a spherical groove matched with the ball is arranged on the outer side surface of the boss, and the ball is rotatably arranged in the spherical groove;

the fixing ring is fixedly provided with a clamping ring, the clamping ring is sleeved on the outer side surface of the protruding portion, a plurality of notches are formed in the side surface of the clamping ring and distributed in an annular array mode, the notches correspond to the balls in a one-to-one mode, the balls extend out of the notches, the notches are used for limiting the balls to be clamped in the spherical grooves, the clamping ring comprises a plurality of clamping blocks, the clamping blocks are arranged around the outer side of the protruding portion in an annular array mode, and the clamping blocks are adjacent to each other and form the notches.

Furthermore, one side, far away from the connecting ring, of the protruding portion is connected with the fixing ring through a first screw, and the supporting plate is connected with the mounting plate through a second screw.

Further, drive arrangement includes the motor, the motor is installed on the mounting panel, and the axis of rotation passes through the belt and connects coupling assembling, elevating gear includes the electric jar, the electric jar passes through the support mounting and is in on the mounting panel, and be in coupling assembling's top, the electric jar output is down, and installs the connecting block, the connecting block is rotationally connected the main shaft top.

Further, the spiral cover subassembly includes the casing, the casing is connected main shaft bottom, the casing is provided with opening cavity down, be provided with the pressure head in the cavity, the pressure head is provided with a plurality of, and centers on the bottle lid is the annular array and distributes, the pressure head is made by rubber.

The bottle cap further comprises a sliding shaft, the bottom of the sliding shaft is rotatably connected with a rotating plate, the rotating plate is arranged right above the bottle cap, and the bottom of the rotating plate is lower than the pressure head;

the main shaft bottom is provided with the slip chamber of opening down, the slide bar top is passed casing and slidable ground set up the slip intracavity, slide bar top fixedly connected with stopper, the stopper with slip chamber adaptation, the slip chamber still is provided with the spring, the spring both ends butt respectively the stopper with slip chamber top inner wall.

Furthermore, the pressure head is fixedly connected with a screw rod, and one end of the screw rod, which is far away from the pressure head, is in threaded connection with the side surface of the shell and extends out of the shell.

The invention has the following beneficial effects: the circumferential driving of the driving device and the vertical pushing of the lifting device are separately transmitted through the connecting assembly, so that the circumferential rotation is kept while the main shaft moves up and down, compared with the prior art, the circumferential rotation and the up and down movement are not influenced mutually, the circumferential number of turns and the vertical movement stroke can be independently controlled, the screwing stroke can be conveniently controlled, and the bottle cap screwing device can be adapted to bottles with different heights, the beneficial effects of independently controlling the circumferential number of turns and the vertical movement stroke to conveniently control the screwing stroke of the bottle cap and further adapting different bottle bodies and bottle caps are achieved, all parts in the connecting assembly are detachably connected, the supporting plate is detachably connected with the mounting plate, and the bottle cap screwing device further has the advantages of being convenient to mount, dismount and replace parts.

Drawings

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

FIG. 2 is an enlarged view of the point A in FIG. 1;

FIG. 3 is an enlarged view of the point B in FIG. 1;

FIG. 4 is a schematic top cross-sectional view of the connection assembly;

FIG. 5 is a schematic top view of a retainer ring;

fig. 6 is a schematic view of the pressing head pressing the bottle cap.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 6 in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. Unless otherwise specified, the technical means used in the examples are conventional means well known to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

A packaging device for food processing comprises a bottle body arranged on a conveyor belt 2, wherein a bottle cap is arranged on the bottle body, supporting plates 3 are fixedly arranged on two sides of the conveyor belt 2, a mounting plate 4 is connected to the tops of the supporting plates 3 on the two sides, a main shaft 7 is arranged on the mounting plate 4 in a vertically sliding manner, the bottom of the main shaft 7 penetrates through the mounting plate 4 and is provided with a screw cap assembly 9, and the screw cap assembly 9 is arranged right above the bottle cap and used for screwing the bottle cap;

rotationally be provided with coupling assembling 8 on

mounting panel

4, 8 covers of coupling assembling are established on main shaft 7, be used for circumference restraint main shaft 7, coupling assembling 8 is connected with and is used for driving its pivoted drive arrangement, main shaft 7 is connected with and is used for driving its gliding elevating gear from top to bottom.

Referring to fig. 1, a conveyor belt 2 is a prior art, and is used for conveying bottles 1 filled with food, sequentially passing the bottles 1 under a cap screwing assembly 9, conveying the next bottle under the cap screwing assembly 9 after the cap is screwed, placing the cap on the bottle 1 on the top of the bottle 1 in a pre-capping process, but not screwing, and fixedly arranging support plates 3 at two sides of the conveyor belt 2 in the conveying direction.

The rotation of the main shaft 7 in the circumferential direction is driven by a driving device and is transmitted by the connecting component 8, the torque of the driving device is transmitted to the main shaft 7 to generate circumferential force for screwing the bottle cap, the lifting device pushes the main shaft 7 to do lifting motion on the connecting component 8 in the vertical direction, the cap screwing component 9 is positioned right above the bottle cap when the main shaft 7 is positioned at the highest position, the cap screwing component 9 is abutted against the bottle cap and continuously moves downwards when the main shaft 7 is positioned at the lowest position, the bottle cap is screwed together with the circumferential rotation of the main shaft 7, the circumferential driving of the driving device and the vertical pushing of the lifting device are separately transmitted by the connecting component 8, the main shaft 7 keeps circumferential rotation while moving upwards and downwards, and compared with the prior art, the circumferential rotation and the vertical movement of the invention are not influenced mutually, the circumferential number of turns and the vertical movement stroke can be independently controlled, and the screwing stroke is convenient to control, and can also the not bottle of co-altitude of adaptation, reach the independent control circumference number of turns and vertical motion stroke so that the screw stroke of control bottle lid, and then the beneficial effect of the different bottle of adaptation and bottle lid.

As shown in fig. 2, further, the connection assembly 8 includes a driven wheel, the driven wheel is provided with a mounting hole, the main shaft 7 is slidably disposed in the mounting hole from top to bottom, the inner wall of the mounting hole is provided with a limiting portion, the side surface of the main shaft 7 is provided with a limiting groove adapted to the limiting portion, the main shaft 7 is slidably disposed on the limiting portion from top to bottom through the limiting groove, the driven wheel is rotatably connected to the mounting plate 4, and the driving device is connected to the driven wheel.

The mounting hole and follow driving wheel concentric setting, spacing portion sets up in the radial of main shaft 7, and it card is in the spacing inslot, and then has the effect of circumference restraint to main shaft 7, makes main shaft 7 rotate with following driving wheel under drive arrangement drives.

Further, the side face of the driven wheel is provided with a ring-shaped groove which surrounds the driven wheel in a circle in the circumferential direction, the mounting plate 4 is provided with a through hole matched with the inner wall of the ring-shaped groove, the driven wheel is rotatably arranged on the through hole, the inner wall of the ring-shaped groove is rotatably provided with a plurality of balls 804, and the balls 804 surround the ring-shaped groove and are distributed in an annular array.

The ring channel of driven wheel side makes from driving wheel formation I-shaped wheel structure, and the inboard setting of through-hole is in the ring channel, and then makes from the vertical direction of driving wheel to be retrained, and ball 804 rotation when rotating from the driving wheel, and then has played the effect of reducing the friction force between driven wheel and the mounting panel 4.

Further, the driven wheel comprises a connecting ring 801, the connecting ring 801 is arranged on one side of the mounting plate 4, a protruding portion is arranged on the connecting ring 801 and is arranged in the through hole, a fixing ring 802 is detachably connected to one side, far away from the connecting ring 801, of the protruding portion, the outer diameter of the fixing ring 802 and the connecting ring 801 is larger than that of the protruding portion to form the annular groove, the inner sides of the fixing ring 802 and the connecting ring 801 form the mounting hole, and the ball 804 is arranged on the outer side face of the protruding portion.

Specifically, the connection ring 801 is disposed on one side of the top of the mounting plate 4, the fixing ring 802 is disposed on one side of the bottom of the mounting plate 4, the protruding portion is disposed downward in the through hole, the cross section of the connection ring 801 is of a "T" shaped structure, the connection ring 801 and the fixing ring 802 are both of a hollow circular structure, and the spindle 7 penetrates through the connection ring 801 and the fixing ring 802.

Further, a spherical groove matched with the ball 804 is arranged on the outer side surface of the convex part, and the ball 804 is rotatably arranged in the spherical groove;

the fixing ring 802 is fixedly provided with a clamping ring 803, the clamping ring 803 is sleeved on the outer side surface of the boss, a plurality of notches are formed in the side surface of the clamping ring 803 and distributed in an annular array mode, the notches correspond to the balls 804 one to one, the balls 804 extend out of the notches, the notches are used for limiting the balls 804 to be clamped in the spherical grooves, the clamping ring 803 comprises a plurality of clamping blocks, the clamping blocks surround the outer side surface of the boss, the annular array distribution is formed, and the clamping blocks are adjacent to each other.

Referring to fig. 3, the end face diameter of the spherical groove is smaller than the diameter of the ball 804, so that a part of the ball 804 is disposed in the spherical groove, the two sides of the gap are arc-shaped inner walls adapted to the ball 804, the width of the end face of the outer side face of the gap on the snap ring 803 is smaller than the diameter of the ball 804, so that only a small part of the ball 804 extends out of the gap, the gap has a limiting effect on the ball 804, and the ball 804 is clamped in the spherical groove, one side of the ball 804 away from the spherical groove is disposed in a gap with the inner wall of the through hole, in particular, lubricating oil can be coated on the ball 804, a plurality of balls 804 can be disposed in the vertical direction in the gap, so as to form a vertical multi-row annular array structure of the ball 804,

as shown in fig. 4, specifically, a plurality of fixture blocks are distributed in an annular array around the axis of the fixing ring 802, and then in the vertical direction, that is, in the axis direction of the fixing ring 802, when the fixing ring 802 is dismounted downwards, the ball 804 is limited by the inner wall of the through hole and the spherical groove, and is clamped in the through hole, only when the connecting ring 801 slides out upwards, the ball 804 can be taken out in sequence, when the mounting is performed, the ball 804 is clamped in the spherical groove firstly, then the connecting ring 801 moves downwards, the ball 804 is clamped in the through hole, then the fixing ring 802 is inserted from bottom to top, and the notch is clamped in the ball 804, so that the effect of facilitating mounting and dismounting the ball 804 is achieved.

In addition, thrust bearings 805 are arranged between the upper end face of the fixing ring 802 and the bottom of the mounting plate 4 and between the lower end face of the connecting ring 801 and the top of the mounting plate 4, friction force is further reduced, and the thrust bearings 805 are sleeved on the convex portions.

Further, one side of the protruding portion away from the connection ring 801 is connected to the fixing ring 802 through a first screw, and the support plate 3 is connected to the mounting plate 4 through a second screw.

Further, drive arrangement includes motor 10, motor 10 installs on mounting panel 4, and the axis of rotation passes through the belt and connects coupling assembling 8, elevating gear includes electric jar 5, electric jar 5 passes through the support mounting and is in on mounting panel 4 coupling assembling 8's top, 5 output of electric jar are down, and install connecting block 6, connecting block 6 rotationally connects 7 tops of main shaft.

Specifically, a supporting plate 3 extends from one side of the mounting plate 4, the motor 10 is mounted on the extended side of the mounting plate, the mounting plate has an effect of facilitating mounting and maintenance, a rotating shaft of the motor 10 faces upwards and is fixedly connected with a driving wheel 11, a belt is sleeved on the driving wheel 11 and a connecting ring 801 and is a synchronous belt, the driving wheel 11 and the connecting ring 801 are both provided with teeth matched with the driving wheel 11 and the connecting ring 801, and the electric cylinder 5 has an effect of adjusting a stroke.

Further, the cap screwing assembly 9 includes a housing 901, the housing 901 is connected to the bottom of the spindle 7, the housing 901 is provided with a cavity with a downward opening, a pressure head 904 is arranged in the cavity, the pressure heads 904 are provided with a plurality of pressure heads and distributed in an annular array around the bottle caps, and the pressure heads 904 are made of rubber.

When the electric cylinder 5 drives the cap screwing assembly 9 to move downwards, the pressing head 904 is firstly clamped in place to surround the bottle cap and deform, as shown in fig. 6, the motor 10 is started at the moment, so that the pressing head 904 drives the bottle cap to be screwed tightly under the action of circumferential friction force.

Further, the bottle cap further comprises a sliding shaft 902, the bottom of the sliding shaft 902 is rotatably connected with a rotating plate 903, the rotating plate 903 is arranged right above the bottle cap, and the bottom height is lower than the pressure head 904;

the bottom of the main shaft 7 is provided with a sliding cavity with a downward opening, the top of the sliding shaft 902 penetrates through the casing 901 and is slidably arranged in the sliding cavity, the top of the sliding shaft 902 is fixedly connected with a limit block 907, the limit block 907 is matched with the sliding cavity, the sliding cavity is further provided with a spring 906, and two ends of the spring 906 are respectively abutted to the limit block 907 and the inner wall of the top of the sliding cavity.

The diameter of the limiting block 907 is larger than that of the sliding shaft 902 to achieve a limiting effect, the shell 901 can be detachably connected with the main shaft 7 through a third screw to achieve an effect of mounting and dismounting the spring 906, when the electric cylinder 5 drives the cap screwing assembly 9 to move downwards, the rotating plate 903 is firstly contacted with the bottle cap, the rotating plate 903 is horizontally arranged to achieve a bottle cap leveling effect, meanwhile, under the effect of the spring 906, as shown in fig. 6, the bottle cap is pressed downwards by the rotating plate 903 and friction force generated when the pressure head 904 rotates, in the bottle cap screwing process, the extrusion force of the rotating plate 903 can effectively reduce the vertical friction force effect of the pressure head 904, the pressure head 904 is prevented from taking away the whole bottle body when the cap screwing assembly 9 rises, and in addition, a corresponding fixing mechanism can be arranged on the conveyor belt 2 to fix the bottle body.

Further, the pressure head 904 is fixedly connected with a screw 905, and one end of the screw 905, which is far away from the pressure head 904, is in threaded connection with the side surface of the housing 901 and extends out of the housing 901.

The circumferential diameter of the annular array structure of the plurality of pressing heads 904 can be adjusted by rotating the screw 905, so that the annular array structure of the plurality of pressing heads 904 can be adapted to bottle caps with different diameters, and the fine adjustment function of the axes of the plurality of pressing heads 904 is realized.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various changes, modifications, alterations, and substitutions which may be made by those skilled in the art without departing from the spirit of the present invention shall fall within the protection scope defined by the claims of the present invention.

Claims

1. The utility model provides an encapsulation device for food processing, is provided with bottle lid, its characterized in that including setting up the bottle on conveyer belt (2) on the bottle: the conveying belt is characterized in that supporting plates (3) are fixedly arranged on two sides of the conveying belt (2), the top parts of the supporting plates (3) on the two sides are connected with mounting plates (4), main shafts (7) are arranged on the mounting plates (4) in a vertically sliding mode, the bottoms of the main shafts (7) penetrate through the mounting plates (4), and cap screwing assemblies (9) are arranged, and the cap screwing assemblies (9) are arranged right above bottle caps and used for screwing the bottle caps tightly;

rotationally be provided with coupling assembling (8) on mounting panel (4), coupling assembling (8) cover is established on main shaft (7), be used for circumference restraint main shaft (7), coupling assembling (8) are connected with and are used for driving its pivoted drive arrangement, main shaft (7) are connected with and are used for driving its gliding elevating gear from top to bottom.

2. The packaging device for food processing according to claim 1, wherein: coupling assembling (8) are including following the driving wheel, be provided with the mounting hole from the driving wheel, main shaft (7) can set up with sliding from top to bottom in the mounting hole, the mounting hole inner wall is provided with spacing portion, main shaft (7) side be provided with the spacing groove of spacing portion adaptation, main shaft (7) pass through spacing groove can set up with sliding from top to bottom in spacing portion, rotationally connect from the driving wheel mounting panel (4), and connect drive arrangement.

3. The packaging device for food processing according to claim 2, wherein: the driven wheel is provided with a ring-shaped groove which surrounds the driven wheel in a circle along the circumferential direction, the mounting plate (4) is provided with a through hole matched with the inner wall of the ring-shaped groove, the driven wheel is rotatably arranged on the through hole, the inner wall of the ring-shaped groove is rotatably provided with a plurality of balls (804), and the balls (804) surround the ring-shaped groove and are distributed in an annular array.

4. A packaging unit for food processing according to claim 3, characterized in that: the driven wheel comprises a connecting ring (801), the connecting ring (801) is arranged on one side of the mounting plate (4), a protruding portion is arranged on the connecting ring (801), the protruding portion is arranged in the through hole, one side, far away from the connecting ring (801), of the protruding portion is detachably connected with a fixing ring (802), the outer diameter of the fixing ring (802) and the connecting ring (801) is larger than that of the protruding portion to form the annular groove, the inner sides of the fixing ring (802) and the connecting ring (801) form the mounting hole, and balls (804) are arranged on the outer side face of the protruding portion.

5. The packaging device for food processing according to claim 4, wherein: a spherical groove matched with the ball (804) is formed in the outer side face of the protruding portion, and the ball (804) is rotatably arranged in the spherical groove;

the fixed snap ring (803) that is provided with on solid fixed ring (802), snap ring (803) cover is established on the lateral surface of bellying, snap ring (803) side is provided with a plurality of breachs, and is a plurality of the breach is annular array and distributes, and with a plurality of ball (804) one-to-one, ball (804) extend the breach, the breach is used for spacingly ball (804) card is in spherical inslot, snap ring (803) include a plurality of fixture blocks, and is a plurality of the fixture block centers on annular array distributes, adjacent two is personally submitted in the outside of bellying form between the fixture block the breach.

6. The packaging device for food processing according to claim 4, wherein: one side, far away from the connecting ring (801), of the convex part is connected with the fixing ring (802) through first screws, and the supporting plate (3) is connected with the mounting plate (4) through second screws.

7. The packaging device for food processing according to claim 1, wherein: drive arrangement includes motor (10), motor (10) are installed on mounting panel (4), and the axis of rotation passes through the belt and connects coupling assembling (8), elevating gear includes electric jar (5), electric jar (5) are in through the support mounting on mounting panel (4), and are in the top of coupling assembling (8), electric jar (5) output is down, and installs connecting block (6), connecting block (6) rotationally connect main shaft (7) top.

8. The packaging device for food processing according to claim 1, wherein: the cap screwing assembly (9) comprises a shell (901), the shell (901) is connected with the bottom of the main shaft (7), the shell (901) is provided with a cavity with a downward opening, a pressure head (904) is arranged in the cavity, the pressure heads (904) are arranged and distributed in an annular array mode around the bottle caps, and the pressure heads (904) are made of rubber.

9. The packaging device for food processing according to claim 8, wherein: the bottle cap is characterized by further comprising a sliding shaft (902), the bottom of the sliding shaft (902) is rotatably connected with a rotating plate (903), the rotating plate (903) is arranged right above the bottle cap, and the bottom of the rotating plate (903) is lower than the pressure head (904);

the bottom of the main shaft (7) is provided with a sliding cavity with a downward opening, the top of the sliding shaft (902) penetrates through the shell (901) and is slidably arranged in the sliding cavity, the top of the sliding shaft (902) is fixedly connected with a limiting block (907), the limiting block (907) is matched with the sliding cavity, the sliding cavity is further provided with a spring (906), and two ends of the spring (906) are respectively abutted to the limiting block (907) and the inner wall of the top of the sliding cavity.

10. The packaging device for food processing according to claim 8, wherein: the pressure head (904) is fixedly connected with a screw rod (905), one end, far away from the pressure head (904), of the screw rod (905) is in threaded connection with the side face of the shell (901) and extends out of the shell (901).