CN219807032U - Automatic plastic package device for outer package of product for pear syrup production - Google Patents

Abstract

The utility model discloses an automatic plastic packaging device for outer package of products for pear syrup production, which comprises an output pipe, wherein the upper end of the output pipe is provided with a bagging cylinder, the end of a material bag is sleeved on the output pipe, the head end of the material bag is folded below the output pipe in the bagging cylinder, a bracket is arranged on the bracket, a measuring table is arranged on the bracket, a transportation frame is arranged on the weighing table, a bearing container is arranged on the transportation frame, and pear syrup is input into the material bag by the output pipe and falls into the bearing container; the two opposite telescopic arms are arranged between the output pipe and the bearing container, the front ends of the two telescopic arms are respectively provided with a corresponding hot melting structure and a clamping knife structure, and the hot melting structure and the clamping knife structure respectively seal the material bag and cut off the material bag in a plastic mode, so that the problem that the pear syrup product is packaged under the condition that the consistency of the existing bottle body is poor is expected to be improved, and the problem of large dependence of manual operation exists.

Description

Automatic plastic package device for outer package of product for pear syrup production

Technical Field

The utility model relates to production line transformation, in particular to an automatic plastic packaging device for outer packages of products for pear syrup production.

Background

In recent years, as market demands continue to increase, the demand of pear syrup products is gradually increased, and as the pear syrup products mainly comprise two types of fluid and solid, and the fluid products have the characteristics of viscosity and easy adhesion, the pear syrup fluid has a plurality of problems in the production process, especially in the process of packaging and packaging the pear syrup.

For a long time, pear syrup fluid is packaged in a bottled manner. And the packaging is completed by adding a cover on the bottle body, and the packaging in the mode needs to ensure the sealing of the bottle body packaging. At present, the bottle cap screwing is mainly manually operated, so that the problems of low packaging efficiency, easy error and the like are caused. While full machine packaging using packaging machine equipment has been attempted, the tightness of the product during packaging by the packaging machine equipment is more dependent on the accuracy and fault tolerance of the bottles being packaged, thus significantly increasing production costs. And moreover, products with the problem of tightness found after the product detection still need manual secondary packaging detection, and larger manual operation dependence is caused. Therefore, improvement is performed on the basis of original equipment, so that the packaging efficiency is improved, and it is necessary to develop an efficient and easy-to-operate automatic packaging equipment to realize automatic management of a pear syrup production line and improve the productivity of the whole production line.

Disclosure of Invention

The utility model aims to provide an automatic packaging device for outer packages of products for pear syrup production, which aims to solve the problem that the packaging of pear syrup products is carried out under the condition that the existing bottle bodies are poor in consistency, and the problem of large dependence on manual operation exists.

In order to solve the technical problems, the utility model adopts the following technical scheme:

an automatic plastic packaging device for outer packaging of products for pear syrup production comprises an output pipe, wherein the upper end of the output pipe is provided with a bagging barrel, the output pipe is sleeved with a material bag end, the material bag head end is folded under the output pipe in the bagging barrel, a support is arranged on the support, a measuring table is arranged on the support, a transportation frame is arranged on the weighing table, a bearing container is arranged on the transportation frame, and pear syrup is input into the material bag through the output pipe and falls into the bearing container; two opposite telescopic arms are arranged between the output pipe and the bearing container, and the front ends of the two telescopic arms are respectively provided with a corresponding hot melting structure and a clamping knife structure, and the hot melting structure and the clamping knife structure respectively seal the material bag and cut off the material bag.

Preferably, the telescopic arm comprises a carrier and a pushing handle, the carrier is provided with a stroke cylinder, the stroke cylinder is horizontally fixed on the carrier, the movable end of the stroke cylinder is connected with the pushing handle, and the pushing handle is pushed by the stroke cylinder to move towards the material bag; the number of the telescopic arms is two, and the pushing handles of the two telescopic arms are respectively provided with a blade groove and a pushing block, and the pushing blocks are used for being inserted into the blade grooves when the two telescopic arms are mutually attached.

The further technical scheme is that a first hot melting clamp is arranged above the blade groove and the pushing block, and the first hot melting clamps on the two telescopic arms correspond to each other; the end face of the first hot melting clamp is flush with the end of the pushing handle, and the two first hot melting clamps clamp the material bag mutually and seal the material bag in a plastic mode.

According to a further technical scheme, a second hot melting clamp is arranged below the blade groove and the pushing block, the end faces of the second hot melting clamp are flush with the end faces of the first hot melting clamp, and the two ends of a material bag are respectively clamped by the second hot melting clamp matched with the first hot melting clamp.

Preferably, the outer wall of the bagging cylinder is provided with an elastic sheet, the elastic sheet is provided with a tensioning wheel, and the tensioning wheel is used for attaching the material bag to the outer wall of the output pipe.

Preferably, the carrier is provided with a guide rod, the pushing hand is sleeved on the guide rod, and the pushing hand is used for moving on the guide rod.

The pushing device comprises a guide rod, a pushing handle, a guide rod, a support rod and a support rod.

Compared with the prior art, the utility model has the beneficial effects that at least one of the following is adopted:

according to the utility model, the material bag is stably sleeved on the output tube through the bagging tube, pear syrup is input into the material bag through the output tube and falls into the bearing container, the material bag is weighed through the weighing platform at the lower end of the bearing container, and after the weight of the weighing platform meets the requirement, the material bag is subjected to plastic package and cutting off through the telescopic arm, so that the material bag falls into the bearing container completely, and the bearing container is transported to the next working procedure by the transportation frame conveniently.

According to the utility model, the plastic package and the cutting of the material bag are carried out through the hot melting structure and the clamping knife structure of the two opposite telescopic arms, so that the automatic external package is realized.

According to the utility model, the material bag is matched with the hot melting structure, so that the material bag can be ensured to be completely sealed with the pear syrup fluid, the pear syrup fluid is prevented from being polluted and leaked in the containing container, and higher sealing is formed in the containing container in a matched manner on the premise of keeping a good plastic sealing effect. And reduces the production cost and human resources incurred by purchasing the automatic packaging machinery cover.

Drawings

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

Fig. 2 is a schematic view of the telescopic boom distribution according to the present utility model.

Fig. 3 is a schematic view of the telescopic arm structure of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 and 2, an embodiment of the utility model is an automatic packaging device for outer packaging of products for pear syrup production, which comprises an output pipe 1, wherein a bagging barrel 2 is arranged at the upper end of the output pipe 1, the output pipe 1 is sleeved with a material bag end, and the material bag head end is folded in the bagging barrel 2. The bagging cylinder 2 is an existing commodity, the bagging cylinder 2 is mainly used for collecting and rolling a material bag, the bagging cylinder 2 is round, and the middle part of the material bag is sleeved on the output pipe 1. That is, the material bag is provided with a closed port, and the other port of the material bag is used for containing articles through the bagging cylinder 2, so that the material bag can be stretched to adapt to different sizes when being used for containing pear syrup fluid.

The output pipe 1 is made of stainless steel, so that the output pipe 1 is firm in structure, corrosion-resistant and easy to clean, and can ensure that pear syrup fluid has good stability in the output process during working.

A bracket is arranged below the output pipe 1, a weighing platform 3 is arranged on the bracket, a transport frame 4 is arranged on the weighing platform 3, a containing container 5 is arranged on the transport frame 4, and pear syrup is input into a material bag through the output pipe 1 and falls into the containing container 5; wherein the containing container 5 is an existing commodity, and the containing container 5 is made of food-grade polypropylene or PET material in consideration of the need of containing food in the containing container 5, thereby ensuring that the containing container 5 is nontoxic and sanitary. The weighing platform 3 is an existing electronic scale. The weighing platform 3 and the transportation frame 4 can be made of existing ABS plastic or engineering plastic with supporting property, so that the weighing platform 3 and the transportation frame 4 are convenient to form, mechanical requirements of high volume weight, high strength, good stability and the like can be met, and stability of the structure can be maintained under the influence of temperature of pear syrup fluid. Two opposite telescopic arms 6 are arranged between the output pipe 1 and the containing container 5, the front ends of the two telescopic arms 6 are respectively provided with a corresponding hot melting structure 8 and a clamping knife structure 7, and a plastic package material bag and a cutting material bag are respectively formed by the hot melting structure 8 and the clamping knife structure 7. The telescopic arm 6 can be an existing mechanical arm or an electric control sliding block structure. Wherein, the hot melting structure 8 and the knife clamping structure 7 are respectively fixed on two opposite telescopic arms 6. The two telescopic arms 6 are mutually attached, so that the hot melting structure 8 and the clamping knife structure 7 carry out plastic package and cutting off on the material bag.

Before the device is used, the required pear syrup fluid is required to be filled into quantitative output equipment according to a certain proportion and quantity; and the weighing platform is aligned with the lower end of the output pipe 1, and the starting position of the transport frame 4 is set. Then, a bagging cylinder 2 is arranged above the output pipe and is arranged on the output pipe 1, so that a material bag on the bagging cylinder 2 is sleeved on the output pipe 1.

During operation, pear syrup fluid is conveyed into the material bag through the output pipe 1, so that the material bag rapidly forms a U-shaped pocket, the bottom of the material bag stretches under the influence of gravity of the pear syrup fluid and falls into the containing container, and the pear syrup fluid is placed on the weighing platform in the conveying frame, and the weighing platform is used for weighing and monitoring the weight. When the weighing platform 3 monitors that the pear syrup fluid in the U-shaped pocket reaches the preset weight, the weighing platform 3 sends a signal to a computer, the computer controls the output pipe 1 to stop outputting and sends a signal to the telescopic arm 6, the telescopic arm 6 moves towards the U-shaped pocket, and the telescopic arm 6 seals, fixes and cuts a material bag above the carrying container 5 through the hot melting structure 8 and the knife clamping structure 7. The cut material bags are then transported in the holding container along with the electric rollers on the transport frame 4, and a new holding container is replaced under the output pipe 1. The whole process does not need manual intervention, and the convenient operation of pear syrup packaging is realized on the basis of ensuring safety, stability and high-efficiency production.

It is emphasized that the material bag of this structure needs to have a certain toughness to ensure that the material bag falls into the holding container 5, on the premise that the material bag is mainly used for holding the fluid substance of pear syrup; if the structure carries pear syrup solids or pear syrup granules, the material bags may have a high risk of breakage under the influence of gravity and under the compression state of the tensioning wheel 10.

Based on the above embodiment, referring to fig. 2 and 3, another embodiment of the present utility model is that, in order to make the structure of the telescopic arm 6 relatively simple, the telescopic arm 6 includes a carrier 601 and a pushing handle 602, the carrier 601 is provided with a stroke cylinder 603, and the stroke cylinder 603 is horizontally fixed on the carrier 601, where the carrier 601 is an existing metal frame structure, and the carrier 601 is mainly used for maintaining the stability of the telescopic arm 6.

Wherein the stroke cylinder 603 is horizontally arranged on the carrier 601, providing good support performance to the stroke cylinder 603 by the carrier 601. The movable end of the travel cylinder 603 is connected with the pushing handle 602, and the pushing handle 602 is pushed by the travel cylinder 603 to move towards the material bag.

The two telescopic arms 6 are arranged, the knife clamping structure 7 comprises a blade groove 701 and a push block 702, the blade groove 701 and the push block 702 are arranged at corresponding positions of the two telescopic arms 6, and the push block 702 is used for being inserted into the blade groove 701 when the two telescopic arms 6 are mutually attached.

The knife clamping structure comprises a blade groove and a pushing block, and the telescopic arm comprises a carrier 601, a pushing hand 602 and a stroke cylinder 603. The number of the telescopic arms 6 is two, each telescopic arm 6 is provided with a corresponding stroke cylinder 603 and a corresponding pushing handle 602, the corresponding pushing handle 702 is driven to move through the stroke cylinder 603, and the pushing handles 602 move towards the material bag and clamp the material bag. When the two telescopic arms 6 are mutually attached, the push block 702 of one telescopic arm 6 is inserted into the blade groove 701 of the corresponding telescopic arm 6, so as to realize the clamping and cutting operation of the clamping and cutting structure 7.

Further, the above-mentioned heat-melting structure 8 includes first heat-melting clamps 801 oppositely disposed on the two telescopic arms 6, wherein the first heat-melting clamps 801 are heat-sealing heads of the existing heat-melting device, and the first heat-melting clamps 801 on the two telescopic arms 6 are mainly used for double-sided heat-melting.

The first hot melt clips 801 on the telescopic arms 6 are respectively arranged above the blade groove 701 and the pushing block 702, so that the first hot melt clips 801 on the two telescopic arms 6 correspond to each other; the first heat stake clip 801 functions primarily as: when the knife slot 701 and the push block 702 are subjected to hot melting before cutting, the material bag above the knife slot 701 and the push block 702 is subjected to hot melting, so that after the material bag is cut, a new material bag end closure can be formed.

The end surfaces of the first hot melt clips 801 are flush with the end of the pushing handle 602, and the two first hot melt clips 801 mutually abut against the material bag and seal the material bag in a plastic mode. When the pushing hands 602 are attached, the first hot melting clamp 801 can be attached, pressure is applied to the material bag, and when the hot melting clamp is in operation, the first hot melting clamp 801 is heated to a certain temperature, so that the material bag is instantaneously melted and bonded, and then the material bag below the first hot melting clamp 801 is cut off through the blade groove 701 and the pushing block 702, so that a complete airtight package is formed by the material bag remained after cutting, and the next process can be performed.

Further, the above-mentioned hot-melt structure 8 further includes second hot-melt clips 802 disposed on the two telescopic arms 6, where the second hot-melt clips 802 are disposed at opposite positions on the telescopic arms 6, respectively, the second hot-melt clips 802 are disposed below the blade groove 701 and the push block 702, and the end surfaces of the second hot-melt clips 802 are flush with the end surfaces of the first hot-melt clips 801, and the second hot-melt clips 802 cooperate with the first hot-melt clips 801 to respectively clamp two ends of the material bag. The second heat-melting clamp 802 has the same structure as the first heat-melting clamp 801, and the position of the second heat-melting clamp 802 mainly melts and bonds the material bag below the blade groove 701 and the push block 702, so that the position where the blade groove 701 and the push block 702 are matched to cut is located between the two heat-melting areas, the cut material bag is in a relatively sealed state, and pear syrup fluid is convenient to fall into the containing container 5 and has a layer of sealing protection.

Based on the above embodiment, in another embodiment of the present utility model, the outer wall of the bagging cylinder 2 is provided with a spring plate 9, the spring plate 9 is provided with a tensioning wheel 10, and the tensioning wheel 10 is used for abutting the material bag on the outer wall of the output pipe 1.

The elastic sheet 9 is an existing metal sheet, the elastic sheet 9 is provided with a tensioning wheel 10, and the elastic sheet 9 is close to the output pipe 1 under the action of the elastic sheet or a spring, so that the tensioning wheel 10 can apply thrust to a material bag on the outer wall of the output pipe 1, and the material bag is guaranteed to be attached to the outer wall of the output pipe 1. Wherein the tensioning wheel 10 rotates in a vertical direction so that the tensioning wheel 10 does not hinder the stretching of the pocket.

In another embodiment of the present utility model, the carrier 601 is provided with a guide bar 604, the pushing hand 602 is sleeved on the guide bar 604, and the pushing hand 602 is used for moving on the guide bar 604. Wherein, the carrier is welded with a guide rod, the guide rod 604 is parallel to the moving path of the pushing handle 602, and the guide rod 604 is sleeved by the pushing handle 602. The guide rod 604 is used for transversely restraining the pushing handle 602, and in the moving process of the pushing handle 602, the guide rod 604 ensures that the pushing handle 602 can move to the corresponding position of the material bag for clamping and cutting operations.

Further, the pushing handle 602 is provided with a sub-support 605, the sub-support 605 is L-shaped, the sub-support 605 is sleeved on the guide rod 604, and the sub-support 605 is configured to move on the guide rod 604 and form a support for the pushing handle 602.

The auxiliary support 605 is in an L shape and is mainly used for forming two fulcrums on the guide rod 604, wherein one end of the auxiliary support 605 is attached to the side wall of the push handle 602, and the other end of the auxiliary support 605 is sleeved on the guide rod 604, so that the problem of deformation of the front end of the push handle 602 after being stressed is avoided.

The auxiliary support 605 is made of alloy, and the auxiliary support 605 with an L-shaped structure can be fixed on the push handle 602 by welding or bonding. So that the rear end and the side wall of the push handle 602 are supported, and this configuration is advantageous in avoiding the secondary support 605 from excessively affecting the travel distance of the push handle 602.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," etc., means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present utility model as broadly described. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is intended that such feature, structure, or characteristic be implemented within the scope of the utility model.

Although the utility model has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the scope and spirit of the principles of this disclosure. More specifically, various variations and modifications may be made to the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, drawings and claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides an automatic plastic envelope device of product extranal packing for pear cream production, includes output tube (1), output tube (1) upper end is equipped with bagging-off section of thick bamboo (2), establishes on output tube (1) by material bag end cover, and material bag head end is folding in bagging-off section of thick bamboo (2), its characterized in that: a support is arranged below the output pipe (1), a weighing platform (3) is arranged on the support, a transportation frame (4) is arranged on the weighing platform (3), a carrying container (5) is arranged on the transportation frame (4), and pear syrup is input into a material bag by the output pipe (1) and falls into the carrying container (5); two opposite telescopic arms (6) are arranged between the output pipe (1) and the bearing container (5), the front ends of the two telescopic arms (6) are respectively provided with a corresponding hot melting structure (8) and a clamping knife structure (7), and the hot melting structure (8) and the clamping knife structure (7) respectively seal a material bag and cut off the material bag.

2. The automatic packaging device for outer packages of products for pear syrup production according to claim 1, wherein: the telescopic arm (6) comprises a carrier (601) and a pushing handle (602), wherein a stroke air cylinder (603) is arranged on the carrier (601), the stroke air cylinder (603) is horizontally fixed on the carrier (601), the movable end of the stroke air cylinder (603) is connected with the pushing handle (602), and the pushing handle (602) is pushed by the stroke air cylinder (603) to move towards a material bag; the two telescopic arms (6) are arranged, the cutter clamping structure (7) comprises a cutter blade groove (701) and a push block (702), the cutter blade groove (701) and the push block (702) are respectively arranged at the corresponding positions of the two telescopic arms (6), and the push block (702) is used for being inserted into the cutter blade groove (701) when the two telescopic arms (6) are mutually attached.

3. The automatic packaging device for outer packages of products for pear syrup production according to claim 2, wherein: the hot melting structure (8) comprises first hot melting clamps (801) arranged on two telescopic arms (6), wherein the first hot melting clamps (801) on the telescopic arms (6) are respectively arranged above the blade grooves (701) and the pushing blocks (702), so that the first hot melting clamps (801) on the two telescopic arms (6) correspond to each other; the end faces of the first hot melt clamps (801) are flush with the end of the pushing handle (602), and the two first hot melt clamps (801) clamp the material bags with each other and seal the material bags in a plastic mode.

4. The automatic packaging device for outer packages of products for pear syrup production according to claim 3, wherein: the hot melting structure (8) further comprises second hot melting clamps (802) arranged on the two telescopic arms (6), the second hot melting clamps (802) are respectively arranged below the blade groove (701) and the pushing block (702), the end faces of the second hot melting clamps (802) are flush with the end faces of the first hot melting clamps (801), and the two ends of the material bag are respectively clamped by the second hot melting clamps (802) in cooperation with the first hot melting clamps (801).

5. The automatic packaging device for outer packages of products for pear syrup production according to claim 1, wherein: the outer wall of the bagging cylinder (2) is provided with an elastic sheet (9), the elastic sheet (9) is provided with a tensioning wheel (10), and the tensioning wheel (10) is used for attaching a material bag to the outer wall of the output pipe (1).

6. The automatic packaging device for outer packages of products for pear syrup production according to claim 2, wherein: the carrier (601) is provided with a guide rod (604), the pushing hand (602) is sleeved on the guide rod (604), and the pushing hand (602) is used for moving on the guide rod (604).

7. The automatic packaging device for outer packages of products for pear syrup production according to claim 6, wherein: be equipped with auxiliary support (605) on pushing hands (602), auxiliary support (605) are L type, auxiliary support (605) cover is established on guide arm (604), auxiliary support (605) are used for removing on guide arm (604) and form the support to pushing hands (602).