CN212448256U - High-efficient type vacuum heat sealing machine with direction function - Google Patents

Abstract

The utility model discloses a high-efficient type vacuum heat sealing machine with direction function, including base, lift cylinder, activity clamp plate, first motor, second motor and observation window, the sealed chamber down is installed to the upper end bolt of base, and the upper end nestification in sealed chamber down installs the sealed chamber, the lift cylinder is installed to the outer end bolt of base, and the upper end nestification of lift cylinder installs the installation piece to the installation piece is connected with the outer end in sealed chamber, the butt-joint plate is installed to the outer end bolt in sealed chamber on, and the middle-end nestification of butt-joint plate installs the guide post, the installation piece is installed to the outside bolt in sealed chamber on. This high-efficient type vacuum heat sealing machine with direction function, through the automatic program control that vacuum pump package and lift cylinder formed, let the production efficiency of integrated device higher, the device can be integrated to the production line simultaneously, and equipment structure is compact, collects electromechanical liquid in an organic whole for the installation of integrated device is more convenient with the transportation.

Description

High-efficient type vacuum heat sealing machine with direction function

Technical Field

The utility model relates to a vacuum heat sealing machine technical field specifically is a high-efficient type vacuum heat sealing machine with direction function.

Background

Vacuum packaging equipment's vacuum heat sealing mechanism can take out the air in the wrapping bag automatically, accomplishes the process of sealing after reaching predetermined vacuum, and vacuum packaging machine mainly is used for the food industry, and after vacuum packaging, food can be anti-oxidant to reach the purpose of long-term storage, but current vacuum heat sealing machine still has certain defect, just such as:

1. the existing vacuum heat sealing machine has low automation degree and low production efficiency, and simultaneously, the upper die and the lower die in the device are not accurate enough, so that the pressure range is not uniform enough, and the production quality of the whole device cannot be fully ensured;

2. the existing vacuum heat sealing machine cannot ensure the accuracy of a material pushing position, so that the phenomenon of overlarge local height difference is easy to occur, and meanwhile, the sealing degree of a pressing surface of the device in the whole working process cannot be fully ensured, so that certain use defects exist;

aiming at the problems, innovative design is urgently needed on the basis of the structure of the original vacuum heat sealing machine.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient type vacuum heat sealing machine with direction function, degree of automation with solve among the above-mentioned background is high inadequately, production efficiency is low, the inside upper and lower mould of device closes the mould simultaneously and is accurate inadequately, lead to its pressurized scope not enough even, and then the production quality of unable abundant assurance integrated device, can't guarantee to push away the accuracy of material position, lead to its local height difference too big phenomenon of easily appearing, the unable abundant assurance that obtains of suppression face seal degree of the whole during operation of device simultaneously, and then there is certain use defect's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency vacuum heat sealing machine with a guiding function comprises a base, a lifting cylinder, a movable pressing plate, a first motor, a second motor and an observation window, wherein a lower sealing cavity is installed on an upper end bolt of the base, an upper sealing cavity is installed at the upper end of the lower sealing cavity in a nested manner, the lifting cylinder is installed on an outer end bolt of the base, an installation block is installed at the upper end of the lifting cylinder in a nested manner and is connected with the outer end of the upper sealing cavity, a butt joint plate is installed at the outer end bolt of the upper sealing cavity, a guide column is installed at the middle end of the butt joint plate in a nested manner, the lower end of the guide column is connected with the upper end face of the base, an installation block is installed on an outer side bolt of the upper sealing cavity, a first air bag is fixedly connected to the inner side of the installation block, the movable pressing plate is installed at the middle end of the installation block in a penetrating manner, a vacuum, and the outside adhesive bonding in lower seal chamber is connected with sealed the pad, the nested scraping wings of installing in the upper end of vacuum pump package, and the scraping wings is connected with the base, first motor is installed to the rear side bolt of base, and the nested first conveyer belt of installing of the output of first motor, the end of first conveyer belt is nested installs the installation lead screw, and installs the lead screw and be connected with the upper end of base to the installation lead screw is connected with the scraping wings, the nested second conveyer belt of installing of the axle head of first conveyer belt, and the second conveyer belt is connected with the upper end of base, and the second motor is installed to the upper end bolt of base, go up the observation window of the outside bolt installation in seal chamber.

Preferably, the upper end of the upper seal cavity is provided with mounting blocks at equal intervals, the upper seal cavity forms a telescopic structure with the upper end of the lower seal cavity through the butt joint plate, and the lower end face of the upper seal cavity is attached to the upper end face of the sealing gasket.

Preferably, the number of the guide posts is 4 with respect to the center point of the base at equal angles, the guide posts and the lower end of the upper sealing cavity form a sliding structure through the mounting block, and the width of the guide posts is greater than that of the lifting cylinder.

Preferably, the movable pressing plate is provided with a butt joint groove and a return spring, the outer end of the movable pressing plate is provided with the butt joint groove, the butt joint groove is connected with the inner surface of the upper sealing cavity, the upper end of the movable pressing plate is fixedly connected with the return spring, and the return spring is connected with the inner surface of the upper sealing cavity.

Preferably, the movable pressing plate and the inner surface of the upper sealing cavity form a telescopic structure through a return spring, the movable pressing plate is of a T-shaped structure in front view, and the movable pressing plate and the butt joint groove form the telescopic structure.

Preferably, the sealing gasket is provided with a second air bag and a guide groove, the second air bag is installed at the middle end of the sealing gasket in a nested mode, the second air bag is connected with the inner side of the lower sealing cavity, the guide groove is formed in the upper end of the lower sealing cavity, and the guide groove is connected with the outer end of the second air bag.

Preferably, the second airbag and the inner side of the sealing gasket form a telescopic structure, the second airbag and the upper end of the base form a sliding structure through the guide groove, and the outer surface of the second airbag is attached to the lower end surface of the upper sealing cavity.

Preferably, the material pushing plate and the upper end of the base form a sliding structure through the mounting screw rod, the width of the material pushing plate is smaller than that of the lower sealing cavity, and the upper end of the material pushing plate and the lower end of the upper sealing cavity form a nested structure.

Preferably, the mounting screw rods are symmetrically arranged about the center point of the base, the mounting screw rods form a rotating structure with the outer end of the base through the first conveyor belt, and the mounting screw rods are in threaded connection with the lower end of the material pushing plate.

Compared with the prior art, the beneficial effects of the utility model are that: the high-efficiency vacuum heat sealing machine with the guiding function;

1. the vacuum pump set is provided with the nested butt joint, the automatic program control formed by the vacuum pump set and the lifting cylinder enables the production efficiency of the whole device to be higher, meanwhile, the device can be integrated on a production line, the equipment structure is compact, electromechanical liquid is integrated, the whole device is more convenient to mount and transport, and the practicability of the device is improved.

2. Be provided with the guide post that the angle distributes such as, the four post guide structure of cooperation outer end that lets lift cylinder during operation can be stable ensures that the upper and lower mould compound die is accurate, and the secondary vacuum pump of adoption simultaneously, evacuation is efficient, and vacuum seal is effectual, and the phenomenon in gap has been avoided appearing to laminating structure between the sealed pad of cooperation and the gasbag, has guaranteed the machining efficiency of device.

3. The nested and butted material pushing plates are arranged, and the accuracy of the material pushing position of the material pushing plates can be stably ensured through the servo driving system structure between the 2 groups of motors and the mounting screw rods, the phenomenon that workpieces are inclined is avoided, and the processing quality of the device is improved.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic front view of the present invention;

fig. 4 is a rear view structure diagram of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 6 is a schematic cross-sectional structural view of the mounting block of the present invention;

fig. 7 is a schematic cross-sectional view of the sealing gasket of the present invention.

In the figure: 1. a base; 2. a lower sealed cavity; 3. an upper sealed chamber; 4. a lifting cylinder; 5. a butt plate; 6. A guide post; 7. mounting blocks; 8. a movable pressing plate; 801. a butt joint groove; 802. a return spring; 9. a first air bag; 10. a vacuum pump set; 11. a heat seal knife; 12. a gasket; 1201. a second air bag; 1202. a guide groove; 13. a material pushing plate; 14. a first motor; 15. a first conveyor belt; 16. installing a screw rod; 17. a second conveyor belt; 18. a second motor; 19. and (4) an observation window.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a high-efficiency vacuum heat sealing machine with a guiding function comprises a base 1, a lower sealing cavity 2, an upper sealing cavity 3, a lifting cylinder 4, a butt plate 5, a guide post 6, a mounting block 7, a movable pressing plate 8, a first air bag 9, a vacuum pump set 10, a heat sealing knife 11, a sealing gasket 12, a material pushing plate 13, a first motor 14, a first conveying belt 15, a mounting screw rod 16, a second conveying belt 17, a second motor 18 and an observation window 19, wherein the lower sealing cavity 2 is mounted on an upper end bolt of the base 1, the upper sealing cavity 3 is mounted at the upper end of the lower sealing cavity 2 in a nested manner, the lifting cylinder 4 is mounted on an outer end bolt of the base 1, the mounting block 7 is mounted at the upper end of the lifting cylinder 4 in a nested manner, the mounting block 7 is connected with the outer end of the upper sealing cavity 3, the butt plate 5 is mounted at the outer end bolt of the upper sealing cavity 3, the guide post 6 is mounted at the middle end of the butt plate 5 in a nested, the outer side of the upper sealing cavity 3 is provided with a mounting block 7 by a bolt, the inner side of the mounting block 7 is fixedly connected with a first air bag 9, the middle end of the mounting block 7 is provided with a movable pressing plate 8 in a penetrating way, the upper end of the base 1 is provided with a vacuum pump set 10 by a bolt, the upper end of the lower sealing cavity 2 is provided with a hot knife 11 by a bolt, the outer side of the lower sealing cavity 2 is connected with a sealing gasket 12 in an adhering way, the upper end of the vacuum pump set 10 is provided with a material pushing plate 13 in a nested way, the material pushing plate 13 is connected with the base 1, the rear side of the base 1 is provided with a first motor 14 by a bolt, the output end of the first motor 14 is provided with a first conveyor belt 15 in a nested way, the tail end of the first conveyor belt 15 is provided with a mounting screw rod 16 in a nested way, the mounting screw rod 16 is connected with the upper end of the base 1, and the upper end of the base 1 is bolted with a second motor 18 and the outer side of the upper sealed cavity 3 is bolted with an observation window 19.

The upper end of the upper sealing cavity 3 is provided with mounting blocks 7 at equal intervals, the upper sealing cavity 3 and the upper end of the lower sealing cavity 2 form a telescopic structure through a butt plate 5, the lower end face of the upper sealing cavity 3 is attached to the upper end face of a sealing gasket 12, so that the upper sealing cavity 3 which is subjected to position adjustment through a lifting cylinder 4 can be stably matched with the sealing gasket 12 to perform sealing work along the upper end of the lower sealing cavity 2;

the number of the guide columns 6 is 4, wherein the guide columns 6 are arranged at equal angles relative to the central point of the base 1, the guide columns 6 and the lower end of the upper sealing cavity 3 form a sliding structure through mounting blocks 7, the width of the guide columns 6 is larger than that of the lifting cylinder 4, and the guide columns 6 are distributed at equal angles and can be stably matched with the lifting cylinder 4 to support the movement of the upper sealing cavity 3;

the movable pressing plate 8 is provided with a butt joint groove 801 and a reset spring 802, the outer end of the movable pressing plate 8 is provided with the butt joint groove 801, the butt joint groove 801 is connected with the inner surface of the upper sealing cavity 3, the upper end of the movable pressing plate 8 is fixedly connected with the reset spring 802, the reset spring 802 is connected with the inner surface of the upper sealing cavity 3, the movable pressing plate 8 and the inner surface of the upper sealing cavity 3 form a telescopic structure through the reset spring 802, the movable pressing plate 8 is in a T-shaped structure in front view, the movable pressing plate 8 and the butt joint groove 801 form the telescopic structure, and through the movable pressing plate 8, the supporting and limiting work can be effectively carried out on plates with different thicknesses;

the sealing gasket 12 is provided with a second air bag 1201 and a guide groove 1202, the second air bag 1201 is nested at the middle end of the sealing gasket 12, the second air bag 1201 is connected with the inner side of the lower sealing cavity 2, the guide groove 1202 is formed in the upper end of the lower sealing cavity 2, the guide groove 1202 is connected with the outer end of the second air bag 1201, the second air bag 1201 and the inner side of the sealing gasket 12 form a telescopic structure, the second air bag 1201 and the upper end of the base 1 form a sliding structure through the guide groove 1202, the outer surface of the second air bag 1201 is attached to the lower end face of the upper sealing cavity 3, and the pressed second air bag 1201 can be stably and synchronously extruded through the mutually attached sealing gasket 12;

the material pushing plate 13 forms a sliding structure with the upper end of the base 1 through the mounting screw rod 16, the width of the material pushing plate 13 is smaller than that of the lower sealing cavity 2, and the upper end of the material pushing plate 13 and the lower end of the upper sealing cavity 3 form a nested structure, so that the material pushing plate 13 which moves in position can stably guide and collect materials along the lower end of the upper sealing cavity 3;

the mounting screw rods 16 are symmetrically arranged about the center point of the base 1, the mounting screw rods 16 form a rotating structure with the outer end of the base 1 through the first conveyor belt 15, the mounting screw rods 16 form a threaded connection with the lower end of the material pushing plate 13, and the mounting screw rods 16 which rotate circumferentially can stably drive the material pushing plate 13 which is in threaded connection to slide along the upper end of the base 1.

The working principle is as follows: when the efficient vacuum heat sealing machine with the guiding function is used, according to the figures 1-4, the device is firstly placed at a position needing to work, then the first motor 14 and the second motor 18 are driven, 2 groups of installation screw rods 16 which are stably driven and connected through the first conveyor belt 15 and the second conveyor belt 17 are driven to rotate circumferentially along the upper end of the base 1, at the moment, the material pushing plate 13 in threaded butt joint with the installation screw rods 16 sends the plate materials into a vacuum chamber at the lower end of the lower sealing cavity 2 from a waiting area along the upper end of the base 1 (meanwhile, the plate materials in the vacuum chamber are sent out), and then the material pushing plate 13 is stably returned to a feeding position through a driving structure between the second motor 18 and the installation screw rods 16;

according to fig. 1, 5 and 6, a user adjusts the lifting cylinder 4 through the control panel to drive the upper sealing cavity 3 to move downwards along the upper end of the lower sealing cavity 2, the 4 groups of guide posts 6 which are in nested butt joint can stably ensure the movement stability of the upper sealing cavity 3, at the moment, the upper sealing cavity 3 is in contact with the sealing gasket 12 at the upper end of the lower sealing cavity 2 in advance, so that the pressurized sealing gasket 12 stably carries out synchronous extrusion work on the second air bag 1201, at the moment, the pressurized second air bag 1201 carries out filling work on a gap between the upper sealing cavity 3 and the lower sealing cavity 2 along with the guide groove 1202, and the sealing cavity is further formed to avoid the phenomenon of gas leakage;

according to the figures 1-5, after the device is sealed, a vacuum pump set 10 can be started, the interior of the cavity between an upper sealing cavity 3 and a lower sealing cavity 2 is vacuumized until required vacuum is achieved, after the required vacuum degree is achieved, a user starts a heat sealing knife 11 through a preset program, the sealing bag is compressed through 2 sets of heat sealing knives 11 which are in symmetrical contact, a heating device of the heat sealing knife 11 is started simultaneously (the heating temperature time of the heat sealing knife 11 is adjustable), after the heat sealing process is completed, the heat sealing knife 11 can be driven to return through the preset program, vacuum in the sealing cavities is released simultaneously, after all the vacuum in the cavities is released, the upper sealing cavity 3 is driven to ascend through a lifting cylinder 4, and then the steps are repeated, so that the overall practicability is improved.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a high-efficient type vacuum heat sealing machine with direction function, includes base (1), lift cylinder (4), activity clamp plate (8), first motor (14), second motor (18) and observation window (19), its characterized in that: the upper end of the base (1) is provided with a lower sealing cavity (2) through a bolt, the upper end of the lower sealing cavity (2) is provided with an upper sealing cavity (3) in a nested manner, the outer end of the base (1) is provided with a lifting cylinder (4) through a bolt, the upper end of the lifting cylinder (4) is provided with a mounting block (7) in a nested manner, the mounting block (7) is connected with the outer end of the upper sealing cavity (3), the outer end of the upper sealing cavity (3) is provided with a butt plate (5) through a bolt, the middle end of the butt plate (5) is provided with a guide column (6) in a nested manner, the lower end of the guide column (6) is connected with the upper end face of the base (1), the mounting block (7) is arranged on the outer side of the upper sealing cavity (3) through a bolt, the inner side of the mounting block (7) is fixedly connected with a first air bag, the vacuum pump unit (10) is mounted on an upper end bolt of the base (1), the hot cutter (11) is mounted on an upper end bolt of the lower sealing cavity (2), a sealing gasket (12) is connected to the outer side of the lower sealing cavity (2) in an adhering mode, a material pushing plate (13) is mounted at the upper end of the vacuum pump unit (10) in a nested mode, the material pushing plate (13) is connected with the base (1), a first motor (14) is mounted on a rear side bolt of the base (1), a first conveying belt (15) is mounted at the output end of the first motor (14) in a nested mode, a mounting screw rod (16) is mounted at the tail end of the first conveying belt (15) in a nested mode, the mounting screw rod (16) is connected with the upper end of the base (1), the mounting screw rod (16) is connected with the material pushing plate (13), a second conveying belt (17) is mounted at the shaft end of the first conveying belt (15) in a, and a second motor (18) is installed on the upper end of the base (1) through bolts, and an observation window (19) is installed on the outer side of the upper sealing cavity (3) through bolts.

2. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the upper end of the upper sealing cavity (3) is provided with mounting blocks (7) at equal intervals, the upper sealing cavity (3) forms a telescopic structure with the upper end of the lower sealing cavity (2) through a butt joint plate (5), and the lower end face of the upper sealing cavity (3) is attached to the upper end face of the sealing gasket (12).

3. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the guide columns (6) are arranged at equal angles relative to the center point of the base (1) in an equal angle mode, the guide columns (6) and the lower end of the upper sealing cavity (3) form a sliding structure through the mounting blocks (7), and the width of each guide column (6) is larger than that of the lifting cylinder (4).

4. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the movable pressing plate (8) is provided with a butt joint groove (801) and a reset spring (802), the outer end of the movable pressing plate (8) is provided with the butt joint groove (801), the butt joint groove (801) is connected with the inner surface of the upper sealing cavity (3), the reset spring (802) is fixedly connected to the upper end of the movable pressing plate (8), and the reset spring (802) is connected with the inner surface of the upper sealing cavity (3).

5. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 4, wherein: the movable pressing plate (8) and the inner surface of the upper sealing cavity (3) form a telescopic structure through a return spring (802), the movable pressing plate (8) is of a T-shaped structure in the front view, and the movable pressing plate (8) and the butt joint groove (801) form the telescopic structure.

6. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the sealing gasket (12) is provided with a second air bag (1201) and a guide groove (1202), the second air bag (1201) is mounted at the middle end of the sealing gasket (12) in a nested mode, the second air bag (1201) is connected with the inner side of the lower sealing cavity (2), the guide groove (1202) is formed in the upper end of the lower sealing cavity (2), and the guide groove (1202) is connected with the outer end of the second air bag (1201).

7. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 6, wherein: the second air bag (1201) and the inner side of the sealing gasket (12) form a telescopic structure, the second air bag (1201) and the upper end of the base (1) form a sliding structure through the guide groove (1202), and the outer surface of the second air bag (1201) is attached to the lower end face of the upper sealing cavity (3).

8. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the material pushing plate (13) and the upper end of the base (1) form a sliding structure through the mounting screw rod (16), the width of the material pushing plate (13) is smaller than that of the lower sealing cavity (2), and the upper end of the material pushing plate (13) and the lower end of the upper sealing cavity (3) form a nested structure.

9. A high-efficiency vacuum heat-sealing machine with a guide function as set forth in claim 1, wherein: the mounting screw rods (16) are symmetrically arranged about the center point of the base (1), the mounting screw rods (16) and the outer end of the base (1) form a rotating structure through the first conveying belt (15), and the mounting screw rods (16) and the lower end of the material pushing plate (13) form threaded connection.

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