CN222452599U - Positioning mechanism of large-dose packaging machine - Google Patents

Abstract

The utility model discloses a positioning mechanism for a large-dose packaging machine, which relates to the technical field of packaging machines, including a packaging machine body, a bag forming assembly is fixedly connected to the top of the inner cavity of the front part of the packaging machine body, a film drawing assembly is overlapped on the outer wall of the barrel of the lower part of the bag forming assembly, and a longitudinal sealing assembly is fixedly connected to the inner cavity of the packaging machine body, and the longitudinal sealing assembly is located above the film drawing assembly. The positioning mechanism for a large-dose packaging machine described in the utility model, through the action of a rubber sleeve and a spring 1, enables the barrel to play a supporting and buffering role when introducing materials into the bag, thereby preventing the bag from being damaged due to the falling speed of the material, and at the same time, due to the elasticity of the spring 1, the material can be evenly dispersed in the bag, thereby facilitating loading, and at the same time, through the action of a hydraulic rod 1, an arc-shaped unloading plate and a limiting slide plate, the product packaged on the upper surface of the rubber pad 1 is pushed to the upper surface of the conveyor belt, thereby facilitating rapid unloading.

Description

Positioning mechanism of large-dose packaging machine

Technical Field

The utility model relates to the technical field of packaging machines, in particular to a positioning mechanism of a large-dose packaging machine.

Background

The packaging machine is a machine for packaging products, plays a role in protecting and beautifying, integrally produces and packages in a production line, is applied to filling (filling) of (bagged and bottled) products in the industries of foods, medicines, daily chemicals, hardware, lamps and lanterns, furniture and the like, and mainly comprises a liquid (paste) filling machine, a pillow type packaging machine, a horizontal type packaging machine, a vertical type packaging machine, a powder particle packaging machine, a bag type automatic packaging machine, a frozen product automatic packaging machine and the like.

The following problems exist in the prior art:

The high-dose packing machine positioning mechanism is easy to damage the bag due to impact force because materials fall into the bag from a high place during packing, and meanwhile, the packed products are inconvenient to rapidly discharge, so that the service efficiency is affected, and the high-dose packing machine positioning mechanism is easy to abrade the bag when the bag is opened, so that the use is affected.

Disclosure of utility model

The utility model aims to provide a positioning mechanism of a large-dose packaging machine, which solves the problems in the prior art.

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

The utility model provides a high-dose packagine machine positioning mechanism, includes the packagine machine organism, the inner chamber top fixedly connected with of packagine machine organism front portion becomes the bagging apparatus subassembly, the outer wall overlap joint of the sub-feed cylinder of bagging apparatus subassembly lower part has and draws the membrane subassembly, the inner chamber fixedly connected with of packagine machine organism indulges and seals the subassembly and be located the top that draws the membrane subassembly, the inner wall of indulging and sealing the subassembly cup joints with the outer wall activity of the sub-feed cylinder of bagging apparatus subassembly lower part, the sub-fixedly connected with is symmetrical two to prop the bagging apparatus subassembly about the sub-surface and prop the bagging apparatus subassembly and be located the below that draws the membrane subassembly, the inner chamber bottom fixedly connected with unloading subassembly of packagine machine organism, the inner chamber fixedly connected with of packagine machine organism is violently sealed the subassembly and is located the below that props the bagging apparatus subassembly, the sub-surface fixedly connected with protection subassembly about the sub-surface and protection subassembly is located the top that the unloading subassembly.

Preferably, the unloading subassembly includes unable adjustment base, unable adjustment base's lower surface and packagine machine organism's inner chamber bottom fixed connection, the inner chamber fixedly connected with hydraulic rod one of unable adjustment base rear portion, the output fixedly connected with arc blanking plate and the arc blanking plate of hydraulic rod one are located between protection subassembly and the unable adjustment base rear portion, the equal fixedly connected with spacing slide of the left and right sides at arc blanking plate rear and two spacing slides are located the left and right sides of hydraulic rod one, two spacing slide's outer wall cup joints with the inner chamber activity of unable adjustment base rear portion respectively.

Preferably, the protection assembly comprises two second hydraulic rods, the outer walls of the upper parts of the two hydraulic rods are fixedly connected with inner cavities of the left and right parts of the transverse sealing assembly respectively, the output ends of the two hydraulic rods are fixedly connected with a supporting plate, a plurality of buffer assemblies are distributed on the annular array of the upper surface of the middle part of the supporting plate, and a plurality of rubber pads are fixedly connected with the upper surfaces of the buffer assemblies.

Preferably, the buffer assembly comprises a rubber sleeve, the upper side and the lower side of the rubber sleeve are fixedly connected with the opposite surfaces of the support plate and the first rubber pad respectively, a first spring is movably sleeved in an inner cavity of the rubber sleeve, and the upper side and the lower side of the first spring are fixedly connected with the opposite surfaces of the support plate and the first rubber pad respectively.

Preferably, the bag opening assembly comprises a fixed block, the upper surface of the fixed block is fixedly connected with the lower surface of the bag forming device assembly, the inner wall of the fixed block is rotationally connected with a connecting block, and the lower surface of the connecting block is fixedly connected with a supporting rod.

Preferably, the outer wall fixedly connected with rubber pad two of vaulting pole, the outer wall fixedly connected with sliding layer of rubber pad two.

Preferably, the upper surfaces of the left and right parts of the connecting block are fixedly connected with springs II, and the upper surfaces of the springs II are fixedly connected with the inner wall of the fixed block respectively.

Compared with the prior art, the utility model has the following beneficial technical effects:

1. The utility model provides a positioning mechanism of a large-dose packing machine, which is characterized in that a rubber sleeve and a first spring are used for supporting and buffering a charging barrel when materials are introduced into a bag, so that the bag is prevented from being damaged due to the descending speed of the materials, meanwhile, the materials can be uniformly dispersed in the bag due to the elasticity of the first spring, thus the charging is convenient, and meanwhile, under the action of a first hydraulic rod, an arc-shaped blanking plate and a limiting sliding plate, a product packaged on the upper surface of a rubber pad is pushed to the upper surface of a conveying belt, so that the quick blanking is convenient.

2. The utility model provides a positioning mechanism of a large-dose packing machine, which enables a connecting block to have a certain buffer space under the action of a fixed block through the action of a second spring, and simultaneously enables a supporting rod not to damage a bag when the bag is supported through the action of a second rubber pad, so that the bag is prevented from being damaged.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present utility model;

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

FIG. 4 is a schematic view of a buffer assembly according to the present utility model;

FIG. 5 is a schematic cross-sectional view of the blanking assembly of the present utility model;

FIG. 6 is a schematic view of the bag-opening assembly of the present utility model;

fig. 7 is an enlarged schematic view of the structure of fig. 6 a according to the present utility model.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include:

The packaging machine comprises a packaging machine body 1, a blanking assembly 2, a protection assembly 3, a bag former assembly 4, a bag supporting assembly 5, a film pulling assembly 6, a longitudinal sealing assembly 7, a transverse sealing assembly 8, a fixing base 21, a first hydraulic rod 22, an arc blanking plate 23, a limiting slide plate 24, a second hydraulic rod 31, a supporting plate 32, a first rubber pad 33, a buffer assembly 34, a rubber sleeve 341, a first spring 342, a fixing block 51, a connecting block 52, a second spring 53, a supporting rod 54, a second rubber pad 55 and a sliding layer 56.

Examples

As shown in fig. 1 and 2, a positioning mechanism of a high-dose packaging machine comprises a packaging machine body 1, wherein a bag forming device assembly 4 is fixedly connected to the top of an inner cavity of the front part of the packaging machine body 1, a film pulling assembly 6 is lapped on the outer wall of a charging barrel of the lower part of the bag forming device assembly 4, a longitudinal sealing assembly 7 is fixedly connected to the inner cavity of the packaging machine body 1, the longitudinal sealing assembly 7 is positioned above the film pulling assembly 6, the inner wall of the longitudinal sealing assembly 7 is movably sleeved with the outer wall of the charging barrel of the lower part of the bag forming device assembly 4, two symmetrical bag supporting assemblies 5 are fixedly connected to the left part and the right part of the lower surface of the bag forming device assembly 4, the bag supporting assemblies 5 are positioned below the film pulling assembly 6, a blanking assembly 2 is fixedly connected to the bottom of the inner cavity of the packaging machine body 1, a transverse sealing assembly 8 is positioned below the bag supporting assembly 5, and a protection assembly 3 is fixedly connected to the lower surface of the left part and the right part of the transverse sealing assembly 8, and the protection assembly 3 is positioned above the blanking assembly 2.

Firstly, a bag with a required bag width is formed by a film along a path through the action of a bag forming device assembly 4, the bag with a fixed bag width is downwards fed into the bag through a charging barrel in the bag forming device assembly 4, then the film is tightly attached to the outer wall of the charging barrel under the action of a film pulling assembly 6, the bag is downwards fed by friction force between a belt and the film, at the moment, the film is sealed under the action of a longitudinal sealing assembly 7 and a transverse sealing assembly 8, materials are manually poured into a lifting machine storage hopper, the materials are automatically brought to the upper part of a multi-head weighing machine through a lifting hopper, the multi-head weighing machine automatically weighs the materials, meanwhile, a multi-head lower removing device automatically removes unqualified weight, and accordingly the qualified weight materials are quickly dropped into the charging barrel in the middle of the bag forming device assembly 4 through a lower hopper, so that the bag is protected under the action of the charging barrel in the bag forming device assembly 4, the bag is sealed and cut off after the materials are packaged under the action of a protecting assembly 3, and finally packaged products are pushed to the upper surface of a conveying belt through a discharging assembly 2.

As shown in fig. 3-5, the blanking assembly 2 comprises a fixed base 21, the lower surface of the fixed base 21 is fixedly connected with the bottom of an inner cavity of the packaging machine body 1, a first hydraulic rod 22 is fixedly connected with the inner cavity of the rear part of the fixed base 21, an arc blanking plate 23 is fixedly connected to the output end of the first hydraulic rod 22, the arc blanking plate 23 is positioned between the protection assembly 3 and the rear part of the fixed base 21, limiting slide plates 24 are fixedly connected to the left and right parts of the rear part of the arc blanking plate 23, two limiting slide plates 24 are positioned on the left and right sides of the first hydraulic rod 22, the outer walls of the two limiting slide plates 24 are movably sleeved with the inner cavity of the rear part of the fixed base 21 respectively, and the arc blanking plate 23 moves forwards under the action of the first hydraulic rod 22 so as to push out a product packaged on the upper surface of the first rubber pad 33, thereby facilitating quick blanking.

The protection assembly 3 comprises two second hydraulic rods 31, the outer walls of the upper parts of the two second hydraulic rods 31 are fixedly connected with inner cavities of the left part and the right part of the transverse sealing assembly 8 respectively, the output ends of the two second hydraulic rods 31 are fixedly connected with a supporting plate 32, a plurality of buffer assemblies 34 are distributed on the annular array on the upper surface of the middle part of the supporting plate 32, a first rubber pad 33 is fixedly connected with the upper surface of the plurality of buffer assemblies 34, and the supporting plate 32 and the first rubber pad 33 are enabled to move downwards under the action of the second hydraulic rods 31, so that packaged products can move downwards to the front of the arc-shaped blanking plate 23, and blanking is facilitated.

The buffer assembly 34 comprises a rubber sleeve 341, wherein the upper side and the lower side of the rubber sleeve 341 are respectively and fixedly connected with the opposite surfaces of the supporting plate 32 and the first rubber pad 33, a first spring 342 is movably sleeved in an inner cavity of the rubber sleeve 341, the upper side and the lower side of the first spring 342 are respectively and fixedly connected with the opposite surfaces of the supporting plate 32 and the first rubber pad 33, and the charging barrel can play a role in supporting and buffering when materials are led into the bag through the functions of the rubber sleeve 341 and the first spring 342, so that the bag is prevented from being damaged due to the descending speed of the materials, and meanwhile the materials can be uniformly dispersed in the bag due to the elasticity of the first spring 342, so that the charging is facilitated.

As shown in fig. 6 and 7, the bag supporting assembly 5 comprises a fixed block 51, the upper surface of the fixed block 51 is fixedly connected with the lower surface of the bag forming device assembly 4, the inner wall of the fixed block 51 is rotatably connected with a connecting block 52, the lower surface of the connecting block 52 is fixedly connected with a supporting rod 54, the upper surfaces of the left part and the right part of the connecting block 52 are fixedly connected with springs II 53, the upper surfaces of the two springs II 53 are respectively fixedly connected with the inner wall of the fixed block 51, the connecting block 52 can have a certain buffer space under the action of the fixed block 51 under the action of the springs II 53, and meanwhile, the supporting rod 54 can not damage a bag when supporting the bag under the action of a rubber cushion II 55, so that the bag is prevented from being damaged.

The outer wall of the stay bar 54 is fixedly connected with a second rubber pad 55, the outer wall of the second rubber pad 55 is fixedly connected with a sliding layer 56, and the bag is supported by the sliding layer 56 and cannot influence movement, so that the use is convenient.

The working principle of the utility model is that firstly, the film forms the bag with the required bag width along the path through the action of the bag forming device assembly 4, the bag with the fixed bag width is sent downwards through the material cylinder in the bag forming device assembly 4, then the film is clung to the outer wall of the material cylinder under the action of the film pulling assembly 6, the bag is sent downwards through the friction force between the belt and the film, at the moment, the film is sealed under the action of the longitudinal sealing assembly 7 and the transverse sealing assembly 8, the material is manually poured into the storage hopper of the elevator, the material is automatically brought to the upper part of the multi-head scale through the lifting hopper, the multi-head scale is automatically weighed, meanwhile, the reject device under the multi-head scale automatically rejects the unqualified weight, so that the qualified weight material is quickly dropped into the material cylinder in the middle part of the bag forming device assembly 4 through the lower hopper, a certain buffer space is formed under the action of the fixed block 51 through the action of the spring II 53, the supporting rod 54 can not damage the bag when the bag is supported through the action of the rubber pad II 55, the blanking material cylinder in the bag forming device assembly 4 is manually poured into the elevator hopper, the material is automatically brought to the upper part of the multi-head scale, the material is automatically rejected through the lifting hopper II, the material is automatically carried to the upper surface of the bag receiving plate 33, the material is prevented from being broken through the buffer sleeve 33 when the supporting the rubber pad II, and the material is well placed on the surface of the upper sealing plate is conveyed through the supporting sleeve 33, and the material pad 33, and the material is prevented from being broken down, and the surface is well under the action of the surface of the sealing plate is well, and the surface is conveyed.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present utility model is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (7)

1. A positioning mechanism for a large-dose packaging machine, comprising a packaging machine body (1), characterized in that: a bag forming assembly (4) is fixedly connected to the top of the inner cavity of the front part of the packaging machine body (1), a film drawing assembly (6) is overlapped on the outer wall of the lower barrel of the bag forming assembly (4), a longitudinal sealing assembly (7) is fixedly connected to the inner cavity of the packaging machine body (1), and the longitudinal sealing assembly (7) is located above the film drawing assembly (6), the inner wall of the longitudinal sealing assembly (7) is movably sleeved with the outer wall of the lower barrel of the bag forming assembly (4), and the bag forming assembly (4) is fixedly connected to the inner cavity of the packaging machine body (1). The left and right parts of the lower surface of the device component (4) are fixedly connected with two symmetrical bag-supporting components (5), and the bag-supporting components (5) are located below the film-pulling component (6); the bottom of the inner cavity of the packaging machine body (1) is fixedly connected with a feeding component (2); the inner cavity of the packaging machine body (1) is fixedly connected with a transverse sealing component (8), and the transverse sealing component (8) is located below the bag-supporting component (5); the lower surfaces of the left and right parts of the transverse sealing component (8) are fixedly connected with a protective component (3), and the protective component (3) is located above the feeding component (2). 2. A positioning mechanism for a large-dose packaging machine according to claim 1, characterized in that: the unloading component (2) includes a fixed base (21), the lower surface of the fixed base (21) is fixedly connected to the bottom of the inner cavity of the packaging machine body (1), the inner cavity of the rear part of the fixed base (21) is fixedly connected to a hydraulic rod 1 (22), the output end of the hydraulic rod 1 (22) is fixedly connected to an arc-shaped unloading plate (23), and the arc-shaped unloading plate (23) is located between the protective component (3) and the rear part of the fixed base (21), the left and right parts behind the arc-shaped unloading plate (23) are fixedly connected to a limiting slide plate (24), and the two limiting slide plates (24) are located on the left and right sides of the hydraulic rod 1 (22), and the outer walls of the two limiting slide plates (24) are respectively movably connected to the inner cavity of the rear part of the fixed base (21). 3. A positioning mechanism for a large-dose packaging machine according to claim 1, characterized in that: the protective component (3) includes two hydraulic rods (31), the outer walls of the upper parts of the two hydraulic rods (31) are respectively fixedly connected to the inner cavities of the left and right parts of the transverse sealing component (8), the output ends of the two hydraulic rods (31) are fixedly connected to a support plate (32), a plurality of buffer components (34) are distributed in a ring array on the upper surface of the middle part of the support plate (32), and a rubber pad (33) is fixedly connected to the upper surfaces of the plurality of buffer components (34). 4. A positioning mechanism for a large-dose packaging machine according to claim 3, characterized in that: the buffer component (34) includes a rubber sleeve (341), the upper and lower sides of the rubber sleeve (341) are respectively fixedly connected to the supporting plate (32) and the opposite surfaces of the rubber pad (33), the inner cavity of the rubber sleeve (341) is movably sleeved with a spring (342), and the upper and lower sides of the spring (342) are respectively fixedly connected to the supporting plate (32) and the opposite surfaces of the rubber pad (33). 5. A positioning mechanism for a large-dose packaging machine according to claim 1, characterized in that: the bag-supporting assembly (5) comprises a fixed block (51), the upper surface of the fixed block (51) is fixedly connected to the lower surface of the bag-forming assembly (4), the inner wall of the fixed block (51) is rotatably connected to a connecting block (52), and the lower surface of the connecting block (52) is fixedly connected to a support rod (54). 6. A positioning mechanism for a large-dose packaging machine according to claim 5, characterized in that: the outer wall of the support rod (54) is fixedly connected to a second rubber pad (55), and the outer wall of the second rubber pad (55) is fixedly connected to a sliding layer (56). 7. A positioning mechanism for a large-dose packaging machine according to claim 6, characterized in that: the upper surfaces of the left and right parts of the connecting block (52) are fixedly connected with springs 2 (53), and the upper surfaces of the two springs 2 (53) are respectively fixedly connected to the inner wall of the fixed block (51).