CN217535410U - Full-automatic vacuum capping machine - Google Patents

Abstract

The utility model discloses a full-automatic vacuum capping machine relates to mechanical equipment technical field. The utility model discloses a bottom plate, be provided with directly over the bottom plate and push away the material subassembly, it includes third motor and circular slab to push away the material subassembly, the upper surface of third motor is connected with the second diaphragm, the lower surface of the third pivot of the lower surface connection of third motor is connected with the circular slab, the circular slab's circumference is personally submitted annular array and has been seted up the arc wall, one side of second diaphragm is provided with vacuum assembly, vacuum assembly includes second pneumatic cylinder and second motor, the upper surface middle part position at the second diaphragm is connected to lower surface one side of the first diaphragm of the upper surface connection of second pneumatic cylinder, the lower surface of the second motor of the lower surface connection of second pneumatic cylinder is connected with the second pivot. The utility model discloses a set up and push away the material subassembly for the device carries out automatic unloading of going up to the bottle, and the existence of vacuum subassembly, makes the device carry out automatic unloading of going up to the bottle lid.

Description

Full-automatic vacuum capping machine

Technical Field

The utility model belongs to the technical field of mechanical equipment, especially, relate to a full-automatic vacuum capping machine.

Background

Along with the continuous development of social science and technology, many mechanical equipment for manufacturing have appeared on the market, wherein, vacuum closing machine belongs to mechanical equipment's category, along with vacuum closing machine's appearance, has not only improved the work efficiency of carrying out the gland on the bottle, but also greatly reduced people's work load in the gland working process, but it still has following drawback in the in-service use:

1. in the working process of the existing vacuum capping machine, people need to manually load and unload the bottle body, so that the workload of people is increased;

2. the existing vacuum capping machine needs people to load and unload the bottle cap in a manual mode in the working process, so that the workload of people is increased.

Therefore, the existing vacuum capping machine cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic vacuum capping machine pushes away material subassembly and vacuum component through the setting, has solved the unable automatic unloading of realizing to the bottle of current vacuum capping machine to and the unable problem of realizing the last unloading of bottle lid.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a full-automatic vacuum capping machine, comprising a base plate, be provided with directly over the bottom plate and push away the material subassembly, it includes third motor and circular slab to push away the material subassembly, the upper surface of third motor is connected with the second diaphragm, the lower surface of the third pivot of the lower surface connection of third motor is connected with the circular slab, the circumference of circular slab is personally submitted annular array and has been seted up the arc wall, one side of second diaphragm is provided with vacuum assembly, vacuum assembly includes second pneumatic cylinder and second motor, the lower surface of the upper surface connection's of second pneumatic cylinder first diaphragm one side is connected on the upper surface middle part position of second diaphragm, the lower surface of the second motor that the lower surface of second pneumatic cylinder is connected with the second pivot, the lower surface of the circular block of the lower surface connection of second pivot is personally submitted annular array and is distributed and is had the vacuum pump, the lower terminal surface intercommunication of the pipe of the lower surface connection of vacuum pump has the suction hood.

Further, a first L-shaped support is connected to one side surface of the second transverse plate, a second L-shaped support is connected to the other side surface of the second transverse plate, the outer sides of the lower surfaces of the first L-shaped support and the second L-shaped support are connected to the upper surface of the bottom plate, and specifically, the first L-shaped support and the second L-shaped support are used for supporting the second transverse plate, so that the second transverse plate is stably located above the bottom plate.

Further, lower surface one side of first L shape support is provided with gland subassembly, gland subassembly includes first pneumatic cylinder and briquetting, the upper surface of first pneumatic cylinder is connected on the lower surface inboard position of first L shape support, the lower surface of first pneumatic cylinder is connected with T shape external screw thread axle, the internal thread hole groove threaded connection that T shape external screw thread axle and the upper surface of briquetting were seted up, specifically, the existence of first pneumatic cylinder for the height of adjustment T shape external screw thread axle, and then the height of adjustment briquetting, the existence in internal thread hole groove for detachable connections between T shape external screw thread axle and the briquetting, and then be favorable to the user to the change of briquetting.

Further, the symmetry is provided with the protection component around the lower surface of circular slab, the protection component includes arc body, arc backplate and rectangle backplate, the upper surface outside of arc body is connected with the arc backplate, the internal surface left and right sides symmetric connection of arc backplate has the rectangle backplate, the lower surface of the worker's shape post that the lower surface of arc body is connected on the upper surface of bottom plate, specifically, the existence of arc body for support the bottle, the existence of arc backplate and rectangle backplate, be used for preventing that the bottle from dropping from the arc body and transporting and take, the existence of worker's shape post, be used for supporting the arc body.

Further, the lower surface middle part of circular slab is provided with transports the subassembly, it includes drive roll, conveying belt and driven voller to transport the subassembly, the outer peripheral face outside transmission of drive roll and driven voller is connected with the conveying belt, the lower surface of the first backup pad of connection is connected on the upper surface of bottom plate to the symmetry rotation around on the periphery of drive roll, the lower surface of the second backup pad of connection is connected on the upper surface of bottom plate to the symmetry rotation around on the periphery of driven voller, specifically, the existence of drive roll and driven voller for the conveying belt opens, and the existence of first backup pad is used for supporting the drive roll, and the existence of second backup pad is used for supporting the driven voller.

Further, the preceding terminal surface of drive roll is connected with first belt pulley, the below of first belt pulley is provided with drive assembly, drive assembly includes second belt pulley and first motor, the internal surface sub-unit connection of the internal surface of the frame of first motor is on the internal surface of first backup pad, the first pivot of the surface connection of first motor runs through first backup pad, and first pivot and first backup pad rotate to be connected, the outer terminal surface of first pivot is connected with the second belt pulley, the outer peripheral face transmission of second belt pulley and first belt pulley is connected with the drive belt, specifically, the existence of first motor for driving first pivot and rotating, the existence of first pivot for driving the second belt pulley and rotating, the existence of second belt pulley and drive belt is used for driving first belt pulley and rotating, the existence of first belt pulley for driving the drive roll and rotating.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up and push away the material subassembly, be provided with directly over the bottom plate and push away the material subassembly, it includes third motor and circular slab to push away the material subassembly, the upper surface of third motor is connected with the second diaphragm, the lower surface of the third pivot of lower surface connection of third motor is connected with the circular slab, the circular slab's circumference is personally submitted annular array and has been seted up the arc wall, so design, make after the user starts the third motor, it rotates to drive the third pivot, it rotates to drive the circular slab, it removes along with the removal of circular slab to drive the inboard bottle of entering arc wall, until make the inboard bottle of arc wall remove to the upper surface opposite side position of conveyer belt along with the removal of circular slab when, make the bottle of accomplishing the gland remove to next station along with the removal of conveyer belt, and then make the device realize the effect of unloading in the automation.

2. The utility model discloses a set up vacuum assembly, one side of second diaphragm is provided with vacuum assembly, vacuum assembly includes second pneumatic cylinder and second motor, lower surface one side of the first diaphragm of upper surface connection of second pneumatic cylinder is connected on the upper surface middle part position of second diaphragm, the lower surface of the second motor of lower surface connection of second pneumatic cylinder is connected with the second pivot, the lower surface of the circular block of lower surface connection of second pivot is annular array distribution and has the vacuum pump, the lower terminal surface intercommunication of the pipe of lower surface connection of vacuum pump has the suction hood, so design, make the user adjust the height distance between vacuum pump and the bottle lid through starting second pneumatic cylinder, and then adjusted the height distance between suction hood and the bottle lid; the user can adjust the horizontal distance between the vacuum pump and the bottle cap by starting the second motor, so as to adjust the horizontal distance between the suction cover and the bottle cap; make the user through controlling the vacuum pump for the suction hood absorbs bottle lid and lax bottle lid, and then makes the device realize the effect of the automatic unloading of going up of bottle lid.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the pushing assembly of the present invention;

FIG. 3 is a schematic view of the second cross plate and the vacuum assembly of the present invention;

fig. 4 is a schematic connection diagram of the second cross plate and the gland assembly according to the present invention;

FIG. 5 is a schematic view of the conveying assembly of the present invention;

FIG. 6 is a schematic view of the connection between the driving assembly and the driving roller according to the present invention;

fig. 7 is a schematic view of the connection between the middle guard assembly, the circular plate and the conveyor belt according to the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a base plate; 2. a drive assembly; 21. a second pulley; 22. a transmission belt; 23. a machine base; 24. a first motor; 25. a first rotating shaft; 3. a gland assembly; 31. a first hydraulic cylinder; 32. a T-shaped externally threaded shaft; 33. briquetting; 34. an internal thread hole groove; 4. a vacuum assembly; 41. a first transverse plate; 42. a second hydraulic cylinder; 43. a second rotating shaft; 44. a vacuum pump; 45. a conduit; 46. a suction hood; 47. a circular block; 48. a second motor; 5. a material pushing assembly; 51. a second transverse plate; 511. a first L-shaped bracket; 512. a second L-shaped bracket; 52. a third motor; 53. a circular plate; 54. an arc-shaped slot; 55. a third rotating shaft; 6. a guard assembly; 61. an arc plate body; 62. an arc-shaped guard plate; 63. a rectangular guard plate; 64. an I-shaped column; 7. a transport assembly; 71. a drive roll; 711. a first pulley; 72. a first support plate; 73. a conveyor belt; 74. a second support plate; 75. a driven roller.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-7, the utility model relates to a full-automatic vacuum capping machine, including bottom plate 1, be provided with directly over bottom plate 1 and push away material assembly 5, it includes third motor 52 and circular plate 53 to push away material assembly 5, the upper surface of third motor 52 is connected with second diaphragm 51, the lower surface of the third pivot 55 that the lower surface of third motor 52 is connected with circular plate 53, circular plate 53's circumference personally submits annular array and has seted up arc wall 54, specifically, the user communicates the external power supply of third motor 52, then, the user uses external control end to start third motor 52, drive third pivot 55 and rotate, drive circular plate 53 and rotate, drive arc wall 54 and rotate, the translation that drives along with the removal of conveying belt 73 and gets into arc wall 54 inboard moves along arc backplate 62; when the bottle bodies move to the other side position of the upper surface of the conveying belt 73 along with the rotation of the circular plate 53, the bottle bodies subjected to gland are conveyed to the next station along with the movement of the conveying belt 73;

a vacuum assembly 4 is arranged on one side of the second transverse plate 51, the vacuum assembly 4 comprises a second hydraulic cylinder 42 and a second motor 48, one side of the lower surface of the first transverse plate 41 connected with the upper surface of the second hydraulic cylinder 42 is connected with the middle position of the upper surface of the second transverse plate 51, the lower surface of the second motor 48 connected with the lower surface of the second hydraulic cylinder 42 is connected with a second rotating shaft 43, the lower surface of a circular block 47 connected with the lower surface of the second rotating shaft 43 is distributed with vacuum pumps 44 in an annular array, the lower end surface of a conduit 45 connected with the lower surface of the vacuum pump 44 is communicated with a suction cover 46, specifically, a user is communicated with an external power supply of the second hydraulic cylinder 42, then, the user starts the second hydraulic cylinder 42 by using an external control end, so that the second hydraulic cylinder 42 is expanded or contracted to drive the second motor 48 to move downwards or upwards, drive the second rotating shaft 43 to move downwards or upwards, drive the circular block 47 to move downwards or upwards, drive the vacuum pump 44 to move upwards or downwards, and drive the suction cover 46 to move upwards or downwards until the suction cover 46 moves to the position convenient for sucking bottle caps; then, the user communicates with the external power supply of the second motor 48, then, the user starts the second motor 48 by using the external control end to drive the second rotating shaft 43 to rotate, drive the circular block 47 to rotate, drive the vacuum pump 44 to rotate, drive the suction cover 46 to rotate until the suction cover 46 rotates to the upper part of the bottle cap, then, the user starts the vacuum pump 44 by using the external control end to make the bottle cap sucked by the suction cover 46, and then, the second motor 48 continues to drive the suction cover 46 to rotate until the bottle cap is made. The bottle cap sucked inside the suction cap 46 moves to just above the bottle body on the arc plate body 61, and then the user turns off the vacuum pump 44 using the external control terminal, so that the bottle cap inside the suction cap 46 is placed above the bottle body.

As shown in fig. 1 and 4, a first L-shaped bracket 511 is connected to one side surface of the second horizontal plate 51, a second L-shaped bracket 512 is connected to the other side surface of the second horizontal plate 51, and the outer sides of the lower surfaces of the first L-shaped bracket 511 and the second L-shaped bracket 512 are connected to the upper surface of the bottom plate 1, specifically, a user uses external screws to lock and connect the first L-shaped bracket 511 and the second L-shaped bracket 512 to the upper surface of the bottom plate 1, so that the second horizontal plate 51 is stably located above the bottom plate 1.

As shown in fig. 4, a pressing cover assembly 3 is disposed on one side of the lower surface of the first L-shaped support 511, the pressing cover assembly 3 includes a first hydraulic cylinder 31 and a pressing block 33, the upper surface of the first hydraulic cylinder 31 is connected to the inner side of the lower surface of the first L-shaped support 511, the lower surface of the first hydraulic cylinder 31 is connected to a T-shaped external threaded shaft 32, the T-shaped external threaded shaft 32 is in threaded connection with an internal threaded hole groove 34 formed in the upper surface of the pressing block 33, specifically, a user applies a rotational external force to the pressing block 33 to rotate the pressing block 33 and move the pressing block 33 in a direction away from the T-shaped external threaded shaft 32 until the T-shaped external threaded shaft 32 is completely separated from the inner side of the internal threaded hole groove 34, and thus, the user completes the detachment of the pressing block 33; on the contrary, the user connects the pressing block 33 to the lower surface of the first hydraulic cylinder 31, then the user communicates with the external power supply of the first hydraulic cylinder 31, then the user starts the first hydraulic cylinder 31 by using the external control end, so that the first hydraulic cylinder 31 is stretched to drive the T-shaped external thread shaft 32 to move downwards and drive the pressing block 33 to move downwards, and the bottle cap placed on the bottle body is pressed on the bottle body by the pressing block 33 moving downwards; conversely, when the first hydraulic cylinder 31 contracts, the T-shaped external threaded shaft 32 is driven to move upwards, and the pressing block 33 is driven to move upwards.

As shown in fig. 1, 5, 6, and 7, the protection components 6 are symmetrically arranged on the front and back of the lower surface of the circular plate 53, each protection component 6 includes an arc-shaped plate body 61, an arc-shaped protection plate 62 and a rectangular protection plate 63, the arc-shaped protection plate 62 is connected to the outer side of the upper surface of the arc-shaped plate body 61, the rectangular protection plates 63 are symmetrically connected to the left and right sides of the inner surface of the arc-shaped protection plate 62, the lower surface of the i-shaped column 64 connected to the lower surface of the arc-shaped plate body 61 is connected to the upper surface of the base plate 1, the conveying component 7 is arranged in the middle of the lower surface of the circular plate 53, the conveying component 7 includes a driving roller 71, a conveying belt 73 and a driven roller 75, the outer sides of the outer peripheral surfaces of the driving roller 71 and the driven roller 75 are in transmission connection, the lower surface of the first support plate 72, which is symmetrically connected to the front and back on the peripheral surface of the driving roller 71, is connected to the upper surface of the base plate 1, the lower surface of a second supporting plate 74 which is rotationally connected with the circumferential surface of the driven roller 75 in a front-back symmetrical manner is connected with the upper surface of the bottom plate 1, the front end surface of the driving roller 71 is connected with a first belt pulley 711, a driving component 2 is arranged below the first belt pulley 711, the driving component 2 comprises a second belt pulley 21 and a first motor 24, the lower part of the inner surface of a base 23 which is connected with the inner surface of the first motor 24 is connected with the inner surface of the first supporting plate 72, a first rotating shaft 25 which is connected with the outer surface of the first motor 24 penetrates through the first supporting plate 72, the first rotating shaft 25 is rotationally connected with the first supporting plate 72, the outer end surface of the first rotating shaft 25 is connected with the second belt pulley 21, the outer circumferential surfaces of the second belt pulley 21 and the first belt pulley 711 are in transmission connection with a transmission belt 22, specifically, a user is connected with an external power supply of the first motor 24, then, the user starts the first motor 24 by using an external control end to drive the first rotating shaft 25 to rotate, drive second belt pulley 21 and rotate for drive belt 22 drives first belt pulley 711 and rotates, drives drive roll 71 and rotates, makes conveying belt 73 drive driven voller 75 rotate, and then makes the bottle of placing in conveying belt 73 upper surface one side move to the direction that is close to arc body 61 along rectangle backplate 63, when the bottle removed to arc body 61 on, the bottle removed along arc backplate 62 along the rotation of circular plate 53, until making the bottle remove to the upper surface opposite side of conveying belt 73 along circular plate 53.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a full-automatic vacuum capping machine, includes bottom plate (1), its characterized in that: be provided with directly over bottom plate (1) and push away material assembly (5), it includes third motor (52) and circular slab (53) to push away material assembly (5), the upper surface of third motor (52) is connected with second diaphragm (51), the lower surface of third pivot (55) that the lower surface of third motor (52) is connected with circular slab (53), circular array has been seted up arc wall (54) to the circumference of circular slab (53), one side of second diaphragm (51) is provided with vacuum component (4), vacuum component (4) include second pneumatic cylinder (42) and second motor (48), the lower surface one side of the first diaphragm (41) of the upper surface connection of second pneumatic cylinder (42) is connected on the upper surface middle part position of second diaphragm (51), the lower surface of the second motor (48) of the lower surface connection of second pneumatic cylinder (42) is connected with second pivot (43), the circular surface that the lower surface of the lower surface connection of second pivot (43) is the circular array distribution of block (47) has the suction cover (46) of the lower surface connection of vacuum pump (44).

2. The full-automatic vacuum capping machine according to claim 1, characterized in that: one side surface of the second transverse plate (51) is connected with a first L-shaped support (511), the other side surface of the second transverse plate (51) is connected with a second L-shaped support (512), and the outer sides of the lower surfaces of the first L-shaped support (511) and the second L-shaped support (512) are connected to the upper surface of the bottom plate (1).

3. The full-automatic vacuum capping machine according to claim 2, characterized in that: the lower surface one side of first L shape support (511) is provided with gland subassembly (3), gland subassembly (3) include first pneumatic cylinder (31) and briquetting (33), the upper surface connection of first pneumatic cylinder (31) is on the lower surface inboard position of first L shape support (511), the lower surface of first pneumatic cylinder (31) is connected with T shape external screw thread axle (32), internal thread hole groove (34) threaded connection that the upper surface of T shape external screw thread axle (32) and briquetting (33) was seted up.

4. The full-automatic vacuum capping machine according to claim 1, wherein: the utility model discloses a protection assembly, including circular plate (53), protection subassembly (6), arc backplate (61), arc backplate (62), rectangle backplate (63), the upper surface outside of arc backplate (61) is connected with arc backplate (62), the internal surface left and right sides symmetric connection of arc backplate (62) has rectangle backplate (63), the lower surface of the worker shape post (64) that the lower surface of arc backplate (61) is connected on the upper surface of bottom plate (1).

5. The full-automatic vacuum capping machine according to claim 4, wherein: the lower surface middle part of circular slab (53) is provided with transports subassembly (7), it includes drive roll (71), conveyer belt (73) and driven voller (75) to transport subassembly (7), the outer peripheral face outside transmission of drive roll (71) and driven voller (75) is connected with conveyer belt (73), the lower surface of the first backup pad (72) of symmetry rotation connection around on the periphery of drive roll (71) is connected on the upper surface of bottom plate (1), the lower surface of the second backup pad (74) of symmetry rotation connection around on the periphery of driven voller (75) is connected on the upper surface of bottom plate (1).

6. The full-automatic vacuum capping machine according to claim 5, wherein: the utility model discloses a drive roller (71) is characterized in that the preceding terminal surface of drive roller (71) is connected with first belt pulley (711), the below of first belt pulley (711) is provided with drive assembly (2), drive assembly (2) include second belt pulley (21) and first motor (24), the internal surface sub-unit connection of the internal surface of frame (23) of the internal surface connection of first motor (24) is on the internal surface of first backup pad (72), first pivot (25) of the surface connection of first motor (24) run through first backup pad (72), and first pivot (25) rotate with first backup pad (72) and be connected, the outer terminal surface of first pivot (25) is connected with second belt pulley (21), the outer peripheral face transmission of second belt pulley (21) and first belt pulley (711) is connected with drive belt (22).

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