CN219077590U - Packaging equipment based on intelligent continuous processing - Google Patents

Abstract

The utility model discloses a packaging device based on intelligent continuous processing, which comprises: a base; the opposite type transverse moving unit is arranged on the base; the preservative film conveying unit is arranged on the opposite type transverse moving unit; the green ball rotary sealing unit is arranged on the base through the lifting mechanism, and the preservative film walks above the green ball rotary sealing unit. The utility model provides packaging equipment based on intelligent continuous processing, a preservative film conveying unit drives preservative films to walk above a green ball rotary sealing unit, green balls are manually placed on the preservative films, a counter-type transverse moving unit drives the preservative film conveying units to move towards each other, the middle of the preservative films are arranged in a concave mode under the action of green ball gravity, the preservative films are in a tightening state, at the moment, the green ball rotary sealing unit is lifted, negative pressure is generated, the green balls are sucked into the preservative films through the preservative films, and then the green balls are rotary sealed.

Description

Packaging equipment based on intelligent continuous processing

Technical Field

The utility model relates to the technical field of packaging equipment, in particular to packaging equipment based on intelligent continuous processing.

Background

The green ball is a traditional special snack in the south of the Yangtze river, is cyan, is prepared by mixing mugwort juice into glutinous rice flour, and then wrapping with sweetened bean paste stuffing or lotus paste, is not sweet and greasy, and has light and long green grass fragrance.

The green balls are mainly made of glutinous rice, and are softer in outside, so that the green balls are difficult to fix during packaging, most of the green balls are packaged into a ball package by adopting a preservative film, and then are sealed in a rotating mode, but the prior art only can manually package the green balls, the preservative film and the green balls are packaged by manually pulling the preservative film, and the green balls are not efficient and sanitary.

Disclosure of Invention

In order to achieve the above object, the present utility model discloses a packaging device based on intelligent continuous processing, comprising:

a base;

the opposite type transverse moving unit is arranged on the base;

the preservative film conveying unit is arranged on the opposite type transverse moving unit;

the green ball rotary sealing unit is arranged on the base through the lifting mechanism, and the preservative film walks above the green ball rotary sealing unit.

Preferably, the lifting mechanism is a main lifting cylinder.

Preferably, the bottom end of the base is provided with supporting feet.

Preferably, the opposite-type traversing unit includes:

the two transverse moving grooves are arranged at the top end of the base in parallel, and the cyan ball rotary sealing unit is positioned between the two transverse moving grooves;

the transverse moving screw is rotatably arranged in the transverse moving groove, and the transverse moving screw is uniformly provided with a forward-rotation thread and a reverse-rotation thread;

the left transverse moving screw block and the right transverse moving screw block are both connected in the transverse moving groove in a sliding manner, the left transverse moving screw block is sleeved on the forward-rotation thread, the right transverse moving screw block is sleeved on the reverse-rotation thread, and the preservative film conveying unit is respectively arranged on the left transverse moving screw block and the right transverse moving screw block;

and the transverse moving motor is arranged in the transverse moving groove, and the output end of the transverse moving motor is connected with the transverse moving screw rod.

Preferably, the preservative film conveying unit comprises:

the left conveying frame is connected to the top end of the base in a sliding manner and is connected with the left transverse moving screw block;

the left conveying roller is arranged on the left conveying frame;

the right conveying frame is connected to the top end of the base in a sliding manner, the right conveying frame is connected with the right transverse moving screw block, and the cyan ball rotary sealing unit is positioned between the left conveying frame and the right conveying frame;

the right conveying roller is arranged on the right conveying frame, and the preservative film walks on the left conveying roller and the right conveying roller;

and the driving motors are respectively arranged on the left conveying frame and the right conveying frame, and are respectively connected with the left conveying roller and the right conveying roller in a one-to-one correspondence manner.

Preferably, the rotation directions of the left conveying roller and the right conveying roller are the same.

Preferably, the cyan ball spin sealing unit includes:

the bottom end of the negative pressure cylinder body is arranged on the lifting mechanism;

the valve hose is connected with the negative pressure cylinder, and the end, far away from the negative pressure cylinder, of the valve hose is connected with a negative pressure pump;

the pneumatic lifting rod is arranged at the inner bottom of the negative pressure cylinder body;

the lifting plate is positioned in the negative pressure cylinder and is connected with the pneumatic lifting rod;

the annular mounting seat is fixedly connected to the cylinder mouth end of the negative pressure cylinder body;

the annular chamber is positioned in the annular mounting seat;

an outer drive ring gear located within the annular chamber;

a main drive gear located within the annular chamber, the main drive gear being meshed with the outer drive ring gear;

the auxiliary transmission gear is positioned in the annular chamber and meshed with the outer transmission toothed ring;

the driving motor is arranged on the annular mounting seat, and the output end of the driving motor extends into the annular chamber and is connected with the main driving gear;

the six rotary sealing blocks are circumferentially positioned at the inner ring end of the annular mounting seat;

one end of the fixed connecting rod is connected with the rotary sealing block, and the other end of the fixed connecting rod extends into the annular chamber from the inner ring end of the annular mounting seat;

the transmission connecting rod is positioned in the annular chamber, one end of the transmission connecting rod is rotationally connected with the fixed connecting rod, and the other end of the transmission connecting rod is rotationally connected with the inner ring end of the outer transmission gear ring.

Preferably, the main driving gear and the auxiliary transmission gear are arranged in opposite directions.

The working principle and the beneficial effects of the utility model are as follows:

(1) The utility model provides packaging equipment based on intelligent continuous processing, wherein a preservative film conveying unit drives preservative films to walk above a green ball rotary sealing unit, green balls are manually placed on the preservative films, at the moment, an opposite type transverse moving unit drives the preservative film conveying units to move towards directions close to each other, under the action of gravity of the green balls, the middle of the preservative films is concavely arranged, the preservative films are in a tightening state, at the moment, the green ball rotary sealing unit is lifted, negative pressure is generated, the green balls are sucked into the preservative films through the preservative films, and then the green balls are rotary sealed, so that the green balls are packaged. The packaging equipment based on intelligent continuous processing disclosed by the utility model does not need to manually tear the preservative film to package green balls, so that the working efficiency is improved, and meanwhile, the packaging is sanitary.

(2) The utility model provides packaging equipment based on intelligent continuous processing, when preservative films are in a relaxed state, the middle of the preservative films is concavely arranged under the action of green-cluster gravity, a lifting mechanism works to drive a negative-pressure cylinder body, an annular mounting seat connected with the cylinder mouth end of the negative-pressure cylinder body is lifted, a valve-carrying hose works, so that negative pressure is generated in the negative-pressure cylinder body, the green-cluster wrapped with the preservative films is further sucked into the negative-pressure cylinder body, at the moment, a driving motor works to drive a main driving gear connected with the output end of the driving motor to rotate, under the cooperation of the main driving gear and an auxiliary driving gear, an outer driving toothed ring is driven to rotate anticlockwise in an annular chamber, a driving connecting rod connected with an outer driving toothed ring drives a rotary sealing block to move close to the central end of the annular mounting seat through a fixed connecting rod, thereby completing the closing-up of the preservative films, the lifting mechanism descends to tear the closing-up of the preservative films, then the left conveying roller and the right conveying roller move in directions far away from each other, the opening of the preservative films is further stretched, at the closing-up position of the preservative films is kept in a stretched state, the preservative films is kept in a non-broken state, and the opening hole diameter of the sealing film is simultaneously, the green-cluster is driven to rotate, and the driving motor is driven to drive the rotary sealing block to rotate, at the position is driven to lift the green-cluster seat to rotate, and the green-cluster is further driven to rotate, and the green-cluster is driven to rotate, and the preservative film is lifted.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the opposite type traversing unit and the preservative film conveying unit in the utility model;

FIG. 3 is a schematic diagram of a cyan spinning seal unit structure in the present utility model;

fig. 4 is a schematic view of the structure of the annular mounting seat in the present utility model.

In the figure: 1. a base; 2. a facing type traversing unit; 3. a preservative film conveying unit; 4. a cyan ball spin sealing unit; 5. a lifting mechanism; 21. a transverse moving groove; 22. a traversing screw; 23. a left-hand moving screw block; 24. right lateral moving screw block; 25. a traversing motor; 31. a left conveying frame; 32. a left conveying roller; 33. a right conveying frame; 34. a right conveying roller; 30. a preservative film; 41. a negative pressure cylinder; 42. a valved hose; 43. a pneumatic lifting rod; 44. a lifting plate; 45. an annular mounting seat; 46. an annular chamber; 47. an outer drive ring gear; 48. a main drive gear; 49. a secondary drive gear; 40. a driving motor; 51. a spin seal block; 52. a fixed connecting rod; 53. and a transmission connecting rod.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 4, the packaging apparatus based on intelligent continuous processing provided in this embodiment includes:

a base 1;

an opposite type traversing unit 2, wherein the opposite type traversing unit 2 is installed on the base 1;

the preservative film conveying unit 3 is arranged on the opposite type transverse moving unit 2;

the blue ball spin-sealing unit 4, the blue ball spin-sealing unit 4 is installed on the base 1 through the lifting mechanism 5, and the preservative film 30 walks above the blue ball spin-sealing unit 4.

The working principle and beneficial effects of the technical scheme are as follows:

the utility model provides packaging equipment based on intelligent continuous processing, wherein a preservative film conveying unit 3 drives a preservative film 30 to walk above a green ball rotary sealing unit 4, green balls are manually placed on the preservative film 30, at the moment, a counter-type traversing unit 2 drives the preservative film conveying unit 3 to move towards each other, the middle of the preservative film is concavely arranged under the action of green ball gravity, the preservative film is in a tight state, at the moment, the green ball rotary sealing unit 4 is lifted, and at the same time, negative pressure is generated, the green balls are sucked into the preservative film through the preservative film, and then the green balls are rotary sealed, so that the packaging of the green balls is completed. The packaging equipment based on intelligent continuous processing disclosed by the utility model does not need to manually tear the preservative film to package green balls, so that the working efficiency is improved, and meanwhile, the packaging is sanitary.

In one embodiment, the lifting mechanism 5 is a main lifting cylinder.

In one embodiment, the bottom end of the base 1 is provided with supporting feet.

In one embodiment, the opposite-type traversing unit 2 includes:

the two transverse moving grooves 21 are arranged at the top end of the base 1 in parallel, and the cyan rotary sealing unit 4 is positioned between the two transverse moving grooves 21;

the transverse moving screw rod 22 is rotatably arranged in the transverse moving groove 21, and the transverse moving screw rod 22 is uniformly provided with a forward-rotation thread and a reverse-rotation thread;

the left lateral movement screw block 23 and the right lateral movement screw block 24 are both connected in the lateral movement groove 21 in a sliding way, the left lateral movement screw block 23 is sleeved on the forward screw thread, the right lateral movement screw block 24 is sleeved on the reverse screw thread, and the preservative film conveying unit 3 is respectively arranged on the left lateral movement screw block 23 and the right lateral movement screw block 24;

and the transverse moving motor 25 is arranged in the transverse moving groove 21, and the output end of the transverse moving motor 25 is connected with the transverse moving screw 22.

The working principle and beneficial effects of the technical scheme are as follows:

the traversing motor 25 works to drive the traversing screw 22 arranged at the output end of the traversing motor 25 to rotate, and under the cooperation of the forward-rotation thread and the reverse-rotation thread, the left traversing screw block 23 matched with the forward-rotation thread and the right traversing screw block 24 matched with the reverse-rotation thread are driven to move in the traversing groove 21 towards a direction approaching or separating from each other, so that the preservative film conveying unit 3 is driven to move.

In one embodiment, the preservative film delivery unit 3 includes:

the left conveying frame 31 is slidably connected to the top end of the base 1, and the left conveying frame 31 is connected with the left traversing screw block 23;

a left conveying roller 32, the left conveying roller 32 being mounted on the left conveying frame 31;

the right conveying frame 33 is slidably connected to the top end of the base 1, the right conveying frame 33 is connected with the right traversing screw block 24, and the cyan rotary seal unit 4 is located between the left conveying frame 31 and the right conveying frame 33;

a right conveying roller 34, wherein the right conveying roller 34 is mounted on the right conveying frame 33, and the preservative film 30 walks on the left conveying roller 32 and the right conveying roller 34;

and the driving motors are respectively arranged on the left conveying frame 31 and the right conveying frame 33, and are respectively connected with the left conveying roller 32 and the right conveying roller 34 in a one-to-one correspondence manner.

The working principle and beneficial effects of the technical scheme are as follows:

when the left traversing screw block 23 and the right traversing screw block 24 move in the traversing groove 21 towards or away from each other, the left conveying frame 31 connected with the left traversing screw block 23 and the right conveying frame 33 connected with the right traversing screw block 24 are driven to move towards or away from each other at the top end of the base 1, so that the left conveying roller 32 arranged on the left conveying frame 31 and the right conveying roller 34 arranged on the right conveying frame 33 synchronously move towards or away from each other, when the left conveying roller 32 and the right conveying roller 34 move towards each other, the preservative film 30 walking on the left conveying roller 32 and the right conveying roller 34 is in a loose state, when the left conveying roller 32 and the right conveying roller 34 move towards the direction away from each other, the preservative film 30 walking on the left conveying roller 32 and the right conveying roller 34 is in a tight state, and when the preservative film 30 is in a loose state, the middle of the preservative film 30 is in a concave state under the action of green ball gravity, so that the green ball falls into the green ball spin sealing unit 4.

In one embodiment, the left and right conveyor rollers 32, 34 rotate in the same direction.

In one embodiment, the cyan spin sealing unit 4 includes:

the bottom end of the negative pressure cylinder 41 is arranged on the lifting mechanism 5;

a valve hose 42, wherein the valve hose 42 is connected with the negative pressure cylinder 41, and a negative pressure pump is connected to the end, away from the negative pressure cylinder 41, of the valve hose 42;

a pneumatic lifting rod 43, wherein the pneumatic lifting rod 43 is installed at the inner bottom of the negative pressure cylinder 41;

a lifting plate 44, wherein the lifting plate 44 is positioned in the negative pressure cylinder 41, and the lifting plate 44 is connected with the pneumatic lifting rod 43;

the annular mounting seat 45 is fixedly connected to the cylinder mouth end of the negative pressure cylinder 41;

an annular chamber 46, said annular chamber 46 being located within said annular mount 45;

an outer drive ring gear 47, said outer drive ring gear 47 being located within said annular chamber 46;

a main drive gear 48, said main drive gear 48 being located within said annular chamber 46, said main drive gear 48 being meshed with said outer drive ring gear 47;

a counter drive gear 49, said counter drive gear 49 being located within said annular chamber 46, said counter drive gear 49 being meshed with said outer drive gear ring 47;

the driving motor 40 is installed on the annular installation seat 45, and the output end of the driving motor 40 extends into the annular chamber 46 and is connected with the main driving gear 48;

the rotary sealing blocks 51, six rotary sealing blocks 51 are circumferentially positioned at the inner ring end of the annular mounting seat 45;

the fixed connecting rod 52, one end of the fixed connecting rod 52 is connected with the rotary sealing block 51, and the other end of the fixed connecting rod 52 extends into the annular chamber 46 from the inner annular end of the annular mounting seat 45;

the transmission link 53, the transmission link 53 is located in the annular chamber 46, one end of the transmission link 53 is rotatably connected with the fixed link 52, and the other end of the transmission link 53 is rotatably connected with the inner ring end of the outer transmission gear ring 47.

The working principle and beneficial effects of the technical scheme are as follows:

when the preservative film 30 is in a relaxed state, under the action of the gravity of the green balls, the middle of the preservative film 30 is concavely arranged, the lifting mechanism 5 works to drive the negative pressure cylinder 41 and the annular mounting seat 45 connected with the cylinder mouth end of the negative pressure cylinder 41 to lift, the valve-containing hose 42 works, so that negative pressure is generated in the negative pressure cylinder 41, the green balls wrapped with the preservative film are further sucked into the negative pressure cylinder 41, at the moment, the driving motor 40 works to drive the main driving gear 48 connected with the output end of the driving motor 40 to rotate, the outer driving toothed ring 47 is driven to rotate anticlockwise in the annular chamber 46 under the cooperation of the main driving gear 48 and the auxiliary driving gear 49, the driving connecting rod 53 connected with the outer driving toothed ring 47 drives the rotary sealing block 51 to move towards the center end close to the annular mounting seat 45 through the fixed connecting rod 52, so that the closing up of the preservative film 30 is completed, the lifting mechanism 5 descends, so that the closing-up of the preservative film is broken, then the left conveying roller 32 and the right conveying roller 34 move in the direction away from each other, the preservative film 30 walking on the left conveying roller 32 and the right conveying roller 34 is in a tight state, the aperture of the closing-up position of the preservative film 30 is expanded, the preservative film 30 is kept in a non-breaking state, at the moment, the lifting mechanism 5 lifts, meanwhile, the valve hose 42 stops working, the driving motor 40 reversely rotates, the rotary sealing block 51 returns, the pneumatic lifting rod 43 drives the lifting plate 44 and the green cluster on the lifting plate 44 to lift in the negative pressure cylinder 41 and push out the annular mounting seat 45, at the moment, the green cluster is picked up manually, the driving motor rotates, the closing-up position of the preservative film 30 is driven to be away from the annular mounting seat 45, and then the rotary sealing operation of the next green cluster is carried out.

In one embodiment, the primary drive gear 48 and the secondary drive gear 49 are disposed in opposition.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (8)

1. Packaging equipment based on intelligent continuous processing, characterized by comprising:

a base (1);

the opposite type transverse moving unit (2), the opposite type transverse moving unit (2) is installed on the base (1);

the preservative film conveying unit (3), the preservative film conveying unit (3) is arranged on the opposite type transverse moving unit (2);

the device comprises a green ball rotary sealing unit (4), wherein the green ball rotary sealing unit (4) is arranged on the base (1) through a lifting mechanism (5), and a preservative film (30) walks above the green ball rotary sealing unit (4).

2. Packaging plant based on intelligent continuous processing according to claim 1, characterized in that the lifting mechanism (5) is a main lifting cylinder.

3. The packaging equipment based on intelligent continuous processing according to claim 1, wherein supporting feet are arranged at the bottom end of the base (1).

4. The packaging plant based on intelligent continuous processing according to claim 1, characterized in that said counter-traversing unit (2) comprises:

the two transverse moving grooves (21) are arranged at the top end of the base (1) in parallel, and the cyan ball rotary sealing unit (4) is positioned between the two transverse moving grooves (21);

the transverse moving screw rod (22) is rotatably arranged in the transverse moving groove (21), and the transverse moving screw rod (22) is uniformly provided with a forward-rotation thread and a reverse-rotation thread;

the plastic wrap conveying device comprises a left transverse moving screw block (23) and a right transverse moving screw block (24), wherein the left transverse moving screw block (23) and the right transverse moving screw block (24) are both connected in the transverse moving groove (21) in a sliding mode, the left transverse moving screw block (23) is sleeved on the forward-rotation thread, the right transverse moving screw block (24) is sleeved on the reverse-rotation thread, and the plastic wrap conveying unit (3) is respectively arranged on the left transverse moving screw block (23) and the right transverse moving screw block (24);

and the transverse moving motor (25) is arranged in the transverse moving groove (21), and the output end of the transverse moving motor (25) is connected with the transverse moving screw rod (22).

5. Packaging plant based on intelligent continuous processing according to claim 4, characterized in that the preservative film conveying unit (3) comprises:

the left conveying frame (31), the left conveying frame (31) is connected to the top end of the base (1) in a sliding manner, and the left conveying frame (31) is connected with the left transverse moving screw block (23);

a left conveying roller (32), wherein the left conveying roller (32) is mounted on the left conveying frame (31);

the right conveying frame (33), the right conveying frame (33) is connected to the top end of the base (1) in a sliding manner, the right conveying frame (33) is connected with the right transverse moving screw block (24), and the cyan ball rotary sealing unit (4) is positioned between the left conveying frame (31) and the right conveying frame (33);

the right conveying roller (34), the right conveying roller (34) is arranged on the right conveying frame (33), and the preservative film (30) walks on the left conveying roller (32) and the right conveying roller (34);

and the driving motors are respectively arranged on the left conveying frame (31) and the right conveying frame (33), and are respectively connected with the left conveying roller (32) and the right conveying roller (34) in a one-to-one correspondence manner.

6. The intelligent continuous process based packaging apparatus as claimed in claim 5, wherein the left conveyor roller (32) and right conveyor roller (34) rotate in the same direction.

7. Packaging plant based on intelligent continuous processing according to claim 1, characterized in that said cyan bowl spin sealing unit (4) comprises:

the negative pressure cylinder body (41), the bottom end of the negative pressure cylinder body (41) is arranged on the lifting mechanism (5);

the valve hose (42) is connected with the negative pressure cylinder (41), and the end, far away from the negative pressure cylinder (41), of the valve hose (42) is connected with a negative pressure pump;

the pneumatic lifting rod (43) is arranged at the inner bottom of the negative pressure cylinder body (41);

the lifting plate (44) is positioned in the negative pressure cylinder body (41), and the lifting plate (44) is connected with the pneumatic lifting rod (43);

the annular mounting seat (45), the annular mounting seat (45) is fixedly connected to the cylinder mouth end of the negative pressure cylinder (41);

-an annular chamber (46), said annular chamber (46) being located within said annular mount (45);

an outer driving ring gear (47), the outer driving ring gear (47) being located within the annular chamber (46);

-a main drive gear (48), said main drive gear (48) being located within said annular chamber (46), said main drive gear (48) being meshed with said outer driving gear ring (47);

a secondary drive gear (49), said secondary drive gear (49) being located within said annular chamber (46), said secondary drive gear (49) being meshed with said outer drive ring gear (47);

the driving motor (40) is arranged on the annular mounting seat (45), and the output end of the driving motor (40) extends into the annular chamber (46) and is connected with the main driving gear (48);

the rotary sealing blocks (51) are circumferentially arranged at the inner ring end of the annular mounting seat (45);

the fixed connecting rod (52), one end of the fixed connecting rod (52) is connected with the rotary sealing block (51), and the other end of the fixed connecting rod (52) extends into the annular chamber (46) from the inner annular end of the annular mounting seat (45);

the transmission connecting rod (53), transmission connecting rod (53) are located in annular chamber (46), transmission connecting rod (53) one end with fixed connecting rod (52) rotate to be connected, transmission connecting rod (53) other end with outer transmission ring gear (47) inner ring end rotates to be connected.

8. The packaging plant based on intelligent continuous processing according to claim 7, characterized in that the primary drive gear (48) and secondary transmission gear (49) are arranged in opposition.

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