CN217350692U - Movable vacuumizing cap screwing machine - Google Patents

Abstract

The utility model relates to a portable automatic evacuation spiral cover device technical field particularly, relate to portable evacuation spiral cover machine, the device includes the conveyer belt and through the automatic lifting reason lid mechanism that the conveyer belt connected gradually, collude lid mechanism automatically, smuggle double-layered bottle mechanism and automatic evacuation mechanism secretly, automatic lifting reason lid mechanism is used for arranging the bottle lid in order and promoting the transport, collude lid mechanism automatically and be used for transporting the bottle lid to smuggleing double-layered bottle mechanism secretly, smuggle double-layered bottle mechanism secretly and be used for promptly and transport the bottle, automatic evacuation mechanism is used for the bottle evacuation. The utility model provides a need the too much problem of manual assistance's operation among the prior art, still simultaneously through automatic lifting reason lid mechanism, collude lid mechanism automatically, smuggle double-layered bottle mechanism secretly, solve the automatic adjustment and the conveying that can't effectively realize the bottle lid position, lead to the unable timely spiral cover operation that carries on of vacuum bottle, the unsatisfactory and problem that the material is rotten of last vacuum effect.

Description

Movable vacuumizing cap screwing machine

Technical Field

The utility model relates to a portable automatic evacuation spiral cover device technical field particularly, relates to portable evacuation spiral cover machine.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

Vacuum refers to a given volume of gas below atmospheric pressure, i.e., a given volume having less than about two thousand and five billion molecules of gas per cubic centimeter of volume. The vacuum is relative to atmospheric pressure and not the space is free of material. The lowest pressure achieved with modern pumping methods still exists in the hundreds of molecules per cubic centimeter of space. The degree of gas rareness is an objective measure of vacuum, and the most direct physical measure is the number of gas molecules per unit volume. The lower the gas molecular density, the lower the gas pressure, and the higher the vacuum.

In our lives, the shelf life of many articles is not long, and in order to sell the articles more conveniently, many customers consult some methods for prolonging the shelf life, generally speaking, most of bagged articles are vacuum-pumping packaging machines, and most of bottled articles are vacuum cap screwing machines. The objects are easy to rot, generate bacteria, rust and the like because microorganisms and oxygen exist for a long time and react with the objects, and the vacuum cap screwing machine pumps air out of the container, so that the microorganisms and the oxygen cannot play a role, and the purpose of prolonging the shelf life of the vacuum cap screwing machine is achieved.

However, in the prior art, the operations requiring manual assistance are too many, including manually placing the bottle cap and the bottle at the vacuumized position, and the automatic adjustment and transmission of the position of the bottle cap cannot be effectively realized, which leads to the problem that the cap screwing operation of the vacuum bottle cannot be performed in time, and finally the vacuum effect is not ideal and the material is deteriorated.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide portable evacuation spiral cover machine, it has solved the too much problem of manual assistance's operation that prior art needs, still simultaneously through automatic lifting reason lid mechanism, automatic collude lid mechanism, smuggle the bottle clamping mechanism secretly, solves the automatic adjustment and the conveying that can't effectively realize the bottle lid position, leads to the unable timely spiral cover operation of carrying on of vacuum bottle, and the unsatisfactory and problem that the material is rotten of vacuum effect at last.

The technical scheme of the application is as follows:

the utility model provides a movable vacuum-pumping cap screwing machine, which comprises a conveying belt, an automatic lifting cap arranging mechanism, an automatic cap hooking mechanism, a bottle clamping and clamping mechanism and an automatic vacuum-pumping mechanism, wherein the automatic lifting cap arranging mechanism, the automatic cap hooking mechanism, the bottle clamping and clamping mechanism and the automatic vacuum-pumping mechanism are sequentially connected through the conveying belt; wherein, automatic evacuation mechanism includes the work module, the work module include the evacuation frame and from the top down gland cylinder, main lift cylinder, spiral cover cylinder, top body cylinder, evacuation cavity and the top body expanding spring that set gradually in the evacuation frame, the evacuation cavity realizes vacuum operation through oil-free vacuum pump.

In some embodiments of the disclosure, the automatic vacuumizing mechanism further comprises a protection box body and a transportation module located below the working module, the protection box body is used for protecting the working module and the transportation module, a touch screen control assembly and a power supply box are arranged on the protection box body, and the bottom of the protection box body, the bottom of the automatic lifting cap arranging mechanism and the bottom of the conveying belt are all connected with movable casters; the transportation module comprises a working strip-shaped area and an auxiliary strip-shaped area which are parallel to each other, a left-right moving slide rail which is the same as the working strip-shaped area in extension direction is arranged in the working strip-shaped area, and the left-right moving slide rail is pushed by a moving cylinder to move left and right; and the two ends and the middle position of the bottom of the left-right moving slide rail are provided with a forward-backward slide rail, and a slide rail cylinder is arranged on the forward-backward slide rail.

In some embodiments of the present disclosure, a waiting tray, a vacuum pumping platform and a bottle discharging tray are sequentially arranged in the working strip-shaped area along the extending direction of the working strip-shaped area, and a bottle feeding electric eye detection counter is arranged at one end of the waiting tray far away from the bottle discharging tray; the bottle clamping device is characterized in that the left and right moving slide rail is close to one side of the waiting tray and is connected with an installation strip plate with the same extending direction of the left and right moving slide rail, a plurality of bottle clamping clip boxes are arranged on one side of the installation strip plate at intervals, the left and right moving slide rail is far away from one side of the left and right moving slide rail is connected with a bottle clamping clip, and one side of the installation strip plate, which is far away from the bottle clamping clip boxes, is connected with a bottle clamping cylinder.

In some embodiments of the disclosure, a strip-shaped push plate is arranged on one side of the waiting tray, which is far away from the bottle clamping and clamping box, a bottle pushing cylinder is connected to one side of the push plate, which is far away from the bottle clamping and clamping box, a plurality of intercepting grooves are uniformly formed in the bottom of the push plate at intervals, bottle intercepting cylinders are arranged in the intercepting grooves, and the bottle intercepting cylinders are connected with intercepting plates; and a bottle pushing electric eye detection counter is arranged at one end, far away from the bottle discharging tray, of the push plate.

In some embodiments of the disclosure, the automatic cap lifting and sorting mechanism comprises a support frame, and a bottle cap blowing remover, a climbing angle adjusting assembly, a bottle cap hopper, a hopper bottom cylinder and a belt motor which are sequentially connected to the support frame from top to bottom, wherein the bottle cap blowing remover is used for adjusting bottle caps to be in a uniform upward or downward state; the bottle cap remover is characterized in that a cover is arranged at the top of the bottle cap hopper, a material passing port is formed in the cover, a material passing plate is connected to one side of the bottle cap remover, the material passing plate is communicated with the material passing port, and one side, away from the material passing port, of the material passing plate is connected with the support frame through the climbing angle adjusting assembly.

In some embodiments of the present disclosure, the automatic lid hooking mechanism includes a connecting frame, a lower lid guide rail, a first guide rail height adjuster, a first guide rail width adjuster, a lid suction box, a second height adjuster, and a second height adjuster; the connecting frame is positioned on one side of the supporting frame, one end of the lower cover guide rail is connected with the top end of one side of the bottle blowing cover remover, and the other end of the lower cover guide rail is connected with the connecting frame; two ends of the lower cover guide rail respectively penetrate through the first guide rail height adjuster and the first guide rail width adjuster, and the first guide rail width adjuster is connected with the bottle blowing cover remover; the cover suction box is connected with the connecting frame, the cover suction box is connected with the second height adjuster and used for adjusting the height of the second height adjuster, and the second height width adjuster is connected with the second height adjuster and used for adjusting the width of the second height adjuster.

In some embodiments of the present disclosure, the bottle clamping mechanism comprises a clamping motor, a clamping belt, a left and right clamping adjuster and an upper and lower clamping adjuster, which are connected in sequence from top to bottom; the two entrainment belts are arranged at one end, far away from the connecting frame, of the top of the connecting frame in parallel, the entrainment left-right regulator is connected with the entrainment belts and is used for regulating the distance between the entrainment belts and the connecting frame, and the entrainment up-down regulator is connected with the entrainment belts and is used for regulating the distance between the entrainment belts and the connecting frame; one end of the connecting frame extends into the protective box body.

In some embodiments of the disclosure, the device further comprises a conveying belt driving mechanism, wherein the conveying belt driving mechanism comprises a bottle separating intercepting knife, a bottle separating electric eye detection device, a foot rest, a conveying belt driving variable frequency motor and a conveying belt chain connecting assembly; divide the bottle to block the cutter with divide the bottle electric eye to detect and all be located on the link just be located lower cover guide rail below, the bottom of link is connected with the foot rest, conveyer belt chain coupling assembling with conveyer belt drive inverter motor all is located in the protective housing and all with the conveyer belt is connected.

The technical scheme of the application has following advantage and beneficial effect at least: in the embodiment, the automatic lifting cap arranging mechanism, the automatic cap hooking mechanism, the bottle clamping and clamping mechanism and the automatic vacuumizing mechanism are arranged and matched with the conveying belt for conveying, in the whole process, only one worker is needed to guide the bottle cap needing cap screwing operation into the automatic lifting cap arranging mechanism, in the mechanism, all bottle caps are automatically adjusted and placed and lifted upwards to be conveyed to the position of the automatic cap hooking mechanism, in the automatic cap hooking mechanism, the bottle cap can be grabbed and transported to the position of the bottle clamping mechanism, in the bottle clamping and clamping mechanism, each bottle cap corresponds to one bottle and is in a relatively proper position, so that the bottle can be vacuumized in a vacuum environment and then can be quickly capped, the bottle and the bottle cap can be conveyed to the automatic vacuumizing mechanism after being adjusted in position, and the bottle can be vacuumized and the capping operation can be quickly performed in the automatic vacuumizing mechanism. The embodiment of the application can realize the evacuation and the spiral cover operation of a plurality of bottles simultaneously, simultaneously the bottle can wait at automatic evacuation mechanism position in the in-process second of first batch bottle evacuation, seamless connection is realized to the biggest possibility, the efficiency of production and processing is improved, this embodiment solves the too much problem of the operation that prior art needs manual assistance, still manage the lid mechanism through automatic lifting simultaneously, automatically, collude the lid mechanism, smuggle double-layered bottle mechanism secretly, solve automatic adjustment and the conveying that can't effectively realize the bottle lid position, lead to the unable timely spiral cover operation of carrying on of vacuum bottle, the unsatisfactory and problem that the material is rotten of final vacuum effect.

Drawings

Fig. 1 is one of the schematic structural diagrams of the present invention;

fig. 2 is a second schematic structural diagram of the present invention;

fig. 3 is a third schematic structural diagram of the present invention;

FIG. 4 is a fourth schematic structural diagram of the present invention;

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

FIG. 6 is a sixth schematic view of the present invention;

fig. 7 is a seventh schematic structural diagram of the present invention;

fig. 8 is an eighth schematic structural diagram of the present invention.

Icon: 1, automatically lifting a cap arranging mechanism; 101-a support frame; 102-bottle blowing cap remover; 103-a climbing angle adjusting component; 104-a bottle cap hopper; 105-hopper bottom cylinder; 106-belt motor drive; 107-a cover; 108-a material passing port; 109-a material passing plate; 2-automatic hooking cover mechanism; 201-a connecting frame; 202-lower cover guide rails; 203-a first rail height adjuster; 204-a first rail width adjuster; 205-suction cap case; 206-a second height adjuster; 207-second height-width adjuster; 3-a bottle clamping mechanism is clamped; 301-an entrainment motor; 302-an entrainment belt; 303-entrainment left and right regulators; 304-entrainment up-down adjuster; 4-automatic vacuum pumping mechanism; 401-a working module; 402-an evacuation rack; 403-a gland cylinder; 404-a main lifting cylinder; 405-a spiral cover cylinder; 406-a body-pushing cylinder; 407-vacuum pumping cavity; 408-a bottle body expansion spring; 409-oilless vacuum pump; 410-a protective box body; 411-a transport module; 412-a touch screen control component; 413-power box; 414-a caster wheel; 415-work bar zone; 416-moving the slide rail left and right; 417 — a traveling cylinder; 418-slide rail forward and backward; 419-slide rail cylinder; 420-auxiliary bar-shaped area; 421-waiting tray; 422-vacuum pumping platform; 423-bottle outlet tray; 424-bottle feeding electric eye detection counter; 425-installing a ribbon board; 426-bottle clamp box; 427-a bottle-clamping clamp; 428-a bottle clamping cylinder; 429-push plate; 430-a bottle pushing cylinder; 431-a interception plate; 432-a catch groove; 433-intercepting a bottle cylinder; 434-push bottle electric eye detection counter; 5-a conveyor belt driving mechanism; 501-bottle separating and intercepting knife; 502-conveyor belt chain connection assembly; 503-a foot rest; 504-conveyor belt drive variable frequency motor; 6-conveying belt.

Detailed Description

In the following paragraphs, different aspects of the embodiments are defined in more detail. Aspects so defined may be combined with any other aspect or aspects unless clearly indicated to the contrary. In particular, any feature considered to be preferred or advantageous may be combined with one or more other features considered to be preferred or advantageous. The terms "first", "second", and the like in the present invention are used for convenience of description only to distinguish different constituent elements having the same name, and do not indicate a sequential or primary-secondary relationship.

Example 1

Referring to fig. 1-8, the present invention provides a mobile cap screwing machine, including a conveyor belt 6, and an automatic lifting cap arranging mechanism 1, an automatic cap hooking mechanism 2, a bottle clamping and clamping mechanism 3 and an automatic vacuum pumping mechanism 4 which are sequentially connected through the conveyor belt 6, wherein the automatic lifting cap arranging mechanism 1 is used for arranging, lifting and conveying bottle caps, the automatic cap hooking mechanism 2 is used for conveying the bottle caps to the bottle clamping and clamping mechanism 3, the bottle clamping and clamping mechanism 3 is used for clamping and conveying bottles, and the automatic vacuum pumping mechanism 4 is used for vacuumizing the bottles; wherein, automatic evacuation mechanism 4 includes work module 401, and work module 401 includes gland cylinder 403, main lift cylinder 404, spiral cover cylinder 405, top body of a bottle cylinder 406, evacuation cavity 407 and the top body of a bottle expanding spring 408 that set gradually from the top down in evacuation frame 402 and the evacuation frame 402, and evacuation cavity 407 realizes vacuum operation through oil-free vacuum pump 409.

It should be noted that, in the embodiment, by providing the automatic lifting cap arranging mechanism 1, the automatic cap hooking mechanism 2, the clamping bottle clamping mechanism 3 and the automatic vacuum pumping mechanism 4, and transmitting them in cooperation with the conveyor belt 6, in the whole process, only one worker is required to introduce the bottle caps to be subjected to cap screwing operation into the automatic lifting cap arranging mechanism 1, in the mechanism, all the bottle caps are automatically adjusted in placement state and lifted upwards to be conveyed to the position of the automatic cap hooking mechanism 2, in the automatic cap hooking mechanism 2, the bottle caps are individually grabbed and conveyed to the position of the clamping bottle clamping mechanism 3, in the clamping bottle clamping mechanism 3, each bottle cap corresponds to one bottle, and the bottle caps are in relatively proper positions, so that the bottle screwing operation can be rapidly performed after the bottle is vacuumized in a vacuum environment, and the bottle and bottle cap positions are adjusted and then transmitted to the automatic vacuum pumping mechanism 4, the bottles are evacuated and the capping operation is performed rapidly in the automatic evacuation mechanism 4. In detail, the capping cylinder 403, the main lifting cylinder 404, the cap screwing cylinder 405, the bottle body ejecting cylinder 406, the vacuum pumping cavity 407 and the bottle body ejecting expansion spring 408 which are arranged in the automatic vacuum pumping mechanism 4 are used for realizing the vacuum pumping operation and the cap screwing and closing operation of the bottle, when the bottle and the bottle cap are in a state with proper relative positions, the capping cylinder 403 is combined with the cap screwing cylinder 405 to realize the adjustment of the distance between the bottle cap and the opening of the bottle and the rotation of the bottle cap on the axis of the bottle, the bottle body ejecting cylinder 406 is combined with the bottle body ejecting expansion spring 408 to realize the adjustment of the distance between the bottle and the bottle cap, and the capping cylinder 403 and the cap screwing cylinder 405 are independent in some embodiments and can also work together with the bottle body ejecting cylinder 406 and the bottle body ejecting expansion spring 408.

The embodiment of the application can realize the evacuation and the spiral cover operation of a plurality of bottles simultaneously, simultaneously in the in-process second batch bottle of first batch bottle evacuation can wait for in 4 positions of automatic evacuation mechanism, seamless joint is realized to the biggest possibility, the efficiency of high pressure heater worker, this embodiment solves the too much problem of manual assistance's operation that prior art needs, still manage lid mechanism 1 through automatic promotion simultaneously, automatically, collude lid mechanism 2, smuggle clamp bottle mechanism 3 secretly, the automatic adjustment and the conveying that can't effectively realize the bottle lid position of solution, lead to the unable timely spiral cover operation of carrying on of vacuum bottle, the unsatisfactory and problem that the material is rotten of final vacuum effect.

Example 2

On the basis of embodiment 1, a mobile vacuum-pumping cap screwing machine is provided, which specifically comprises: the automatic vacuumizing mechanism 4 further comprises a protection box body 410 and a transportation module 411 positioned below the working module 401, the protection box body 410 is used for protecting the working module 401 and the transportation module 411, a touch screen control assembly 412 and a power supply box 413 are arranged on the protection box body 410, and the bottom of the protection box body 410, the bottom of the automatic lifting cap arranging mechanism 1 and the bottom of the conveying belt 6 are all connected with movable casters 414; the transportation module 411 comprises a working strip area 415 and an auxiliary strip area 420 which are parallel to each other, a left-right moving slide rail 416 which has the same extension direction with the working strip area 415 is arranged in the working strip area 415, and the left-right moving slide rail 416 is pushed by a moving cylinder 417 to move left and right; the two ends and the middle position of the bottom of the left-right moving slide rail 416 are both provided with a forward-backward slide rail 418, and a slide rail cylinder 419 is arranged on the forward-backward slide rail 418.

It should be noted that, the automatic transmission of the bottle caps and the quality is realized through the arranged transportation module 411, the structure of the embodiment automatically completes the work content through the finishing control system, and realizes the parameter adjustment through the touch screen control component 412 and the supply of the electric energy through the power box 413. In detail, the distance between the bottle and the bottle cap relative to each structure in the automatic vacuum pumping mechanism 4 is realized by the left-right moving slide rail 416, and the left-right moving slide rail 416 realizes reciprocating sliding on the front-back moving slide rail 418 through the slide rail cylinder 419, and in some embodiments, the extending direction of the left-right moving slide rail 416 is perpendicular to the extending direction of the front-back moving slide rail 418.

A waiting tray 421, a vacuumizing platform 422 and a bottle discharging tray 423 are sequentially arranged in the working strip area 415 along the extending direction of the working strip area, and a bottle feeding electric eye detection counter 424 is arranged at one end, far away from the bottle discharging tray 423, of the waiting tray 421; one side of the left-right moving slide rail 416 close to the waiting tray 421 is connected with a mounting strip plate 425 which has the same extending direction as the left-right moving slide rail 416, a plurality of bottle clamping clamp boxes 426 are arranged at intervals on one side of the mounting strip plate 425, one side of the left-right moving slide rail 416 far away from the left-right moving slide rail 416 is connected with a bottle clamping clamp 427, and one side of the mounting strip plate 425 far away from the bottle clamping clamp boxes 426 is connected with a bottle clamping cylinder 428.

It should be noted that, the transportation module 411 is divided into two parallel strip-shaped areas, so as to distinguish the vacuum bottle being vacuumized from the vacuum bottle waiting to be vacuumized, and because the two areas are parallel, the two vacuum bottles waiting to be vacuumized can be conveyed to the vacuum area more quickly. In detail, the waiting tray 421 is used for placing the bottles to be vacuumized, the vacuuming platform 422 is used for vacuuming the bottles at the position at the moment, the bottle outlet tray 423 is used for conveying the vacuumized bottles out, and the bottle inlet electric eye detection counter 424 is used for counting the vacuumized bottles and recording the yield and related production parameters. In detail, the bottle clamping clips 427 are used for clamping bottles, the bottle clamping clips 427 are connected through a plurality of bottle clamping clip boxes 426 by the installation strip-shaped plates, the bottle clamping cylinders 428 are used for pushing the installation strip-shaped plates, further pushing of a plurality of bottles at the same distance is achieved, meanwhile, due to the fact that the installation strip-shaped plates are connected with the left-right moving sliding rail 416, free adjustment of the distance of the bottles in the front direction, the right direction, the front direction and the rear direction is achieved, and the multi-product, same-time, high-efficiency and multi-direction movement working modes are achieved.

A strip-shaped push plate 429 is arranged on one side, away from the bottle clamping clip box 426, of the waiting tray 421, a bottle pushing cylinder 430 is connected to one side, away from the bottle clamping clip box 426, of the push plate 429, a plurality of intercepting grooves 432 are formed in the bottom of the push plate 429 at even intervals, bottle intercepting cylinders 433 are arranged in the intercepting grooves 432, and the intercepting cylinders 433 are connected with intercepting plates 431; the end of the push plate 429 remote from the bottle-out tray 423 is provided with a bottle-pushing electric eye detection counter 434.

It should be noted that the position adjustment of the bottles on the waiting tray 421 is realized by the bar-shaped push plate 429 connected with the bottle pushing cylinder 430, a plurality of intercepting grooves 432 for penetrating the intercepting plate 431 are uniformly arranged at the bottom of the bar-shaped push plate 429 at intervals, the intercepting plate 431 is pushed by the bottle intercepting cylinder 433 to extend out in the intercepting grooves 432 in a reciprocating manner, the waiting tray 421 is a waiting area, the bottles in the waiting area are intercepted by the intercepting plate 431, and the spacing between the bottles in the waiting area is standardized, so that the bottles can be directly aligned with the vacuum pumping structure when being conveyed to the position of the vacuum pumping platform 422, and the production efficiency is further improved. Specifically, the bottles pushed to the waiting area are counted through the set bottle pushing electric eye detection counter 434, accurate counting is achieved through the two electric eye detection counters, and technical accuracy is guaranteed.

Example 3

On the basis of embodiment 2, a mobile vacuum-pumping cap screwing machine is provided, which specifically comprises: the automatic cap lifting and sorting mechanism 1 comprises a support frame 101, and a bottle cap blowing remover 102, a climbing angle adjusting component 103, a bottle cap hopper 104, a hopper bottom air cylinder 105 and a belt motor drive 106 which are sequentially connected with the support frame 101 from top to bottom, wherein the bottle cap blowing remover 102 is used for adjusting bottle caps to be in a uniform upward or downward state; the top of the bottle cap hopper 104 is provided with a cover 107, the cover 107 is provided with a material passing opening 108, one side of the bottle blowing cap remover 102 is connected with a material passing plate 109, the material passing plate 109 is communicated with the material passing opening 108, and one side of the material passing plate 109, which is far away from the material passing opening 108, is connected with the support frame 101 through a climbing angle adjusting assembly 103.

It should be noted that the supporting frame 101 is used for supporting the bottle cap remover 102, the climbing angle adjusting assembly 103, the bottle cap hopper 104, the hopper bottom air cylinder 105, the belt motor drive 106, and for physical connection with the next process, the area of the top opening of the bottle cap hopper 104 is larger than that of the bottom, that is, the bottle cap hopper 104 is of a structure with a large top and a small bottom, the top of the bottle cap hopper 104 is provided with a cover 107, and the cover 107 is provided with a material passing port 108 for passing through the material passing plate 109. The material passing plate 109 comprises two protection plates which are parallel to each other, a conveying belt is arranged between the two protection plates, the protection plates penetrate through the material passing hole 108, the top ends of the protection plates extend out of the top opening of the bottle cap hopper 104 and extend to a height larger than the bottle cap hopper 104, the bottom ends of the protection plates extend out of the bottom of the bottle cap hopper 104 and extend out of the positions to be connected with a hopper bottom cylinder 105 and a belt motor driver 106 which are used for driving the conveying belt, the material passing plate 109 is adjusted in angle between the side wall of the bottle cap hopper 104 through the climbing angle adjusting assembly 103, and the material passing plate 109 and the bottle cap hopper 104 are connected in a rotating mode. The bottle caps in the bottle cap hopper 104 are conveyed upwards to the bottle blowing cap remover 102 through the climbing angle adjusting assembly 103, and at the bottle blowing cap remover 102, a plurality of bottle caps are uniformly adjusted to be in an upward or downward posture and are sent out to the automatic cap hooking mechanism 2 at uniform intervals.

Example 4

On the basis of embodiment 3, a mobile vacuum-pumping cap screwing machine is provided, which specifically comprises: the automatic cover hooking mechanism 2 comprises a connecting frame 201, a lower cover guide rail 202, a first guide rail height adjuster 203, a first guide rail width adjuster 204, a cover sucking box 205, a second height adjuster 206 and a second height adjuster 207; the connecting frame 201 is positioned at one side of the supporting frame 101, one end of the lower cover guide rail 202 is connected with the top end of one side of the bottle blowing cover remover 102, and the other end is connected with the connecting frame 201; two ends of the lower cover guide rail 202 respectively pass through a first guide rail height adjuster 203 and a first guide rail width adjuster 204, and the first guide rail width adjuster 204 is connected with the bottle blowing cover remover 102; the suction cap case 205 is connected to the connection frame 201, the suction cap case 205 is connected to the second height adjuster 206 and serves to adjust the height of the second height adjuster 206, and the second height width adjuster 207 is connected to the second height adjuster 206 and serves to adjust the width of the second height adjuster 206.

It should be noted that the connecting frame 201 is provided for connecting and supporting the lower lid guide 202, the first guide height adjuster 203, the first guide width adjuster 204, the lid suction box 205, the second height adjuster 206 and the second height adjuster 207, and for physically connecting with the subsequent processes. The bottle cap enters the lower cap guide rail 202 from the top end of the lower cap guide rail 202 after passing through the position of the bottle cap blowing remover 102, and enters the bottle clamping and entraining mechanism 3 through the lower cap guide rail 202, specifically, the width and height of the lower cap guide rail 202 are adjusted by the arrangement of the first guide rail height adjuster 203 and the first guide rail width adjuster 204, so as to realize the conveying of the bottle caps of different bottle caps, in this embodiment, the adjustment of the height of the lower cap guide rail 202 can be the adjustment of the curvature of the whole lower cap guide rail 202 by adjusting the distance between the lower cap guide rail 202 and the first guide rail height adjuster 203. The bottle caps transferred to the section of the lower cap guide rail 202 are sucked up by the arranged cap sucking box 205, and then are adjusted in position with the corresponding bottles, in some embodiments of the present embodiment, the height and width of the cap sucking box are adjusted by the second height adjuster 206 and the second height width adjuster 207, and the height and width of the cap sucking box 205 in the present embodiment can be adjusted by the width and height of the entrainment bottle clamping mechanism 3 or the width and height of the entrainment bottle clamping mechanism 201.

Example 5

On the basis of embodiment 4, provide portable evacuation spiral cover machine, specifically do: the entrainment bottle clamping mechanism 3 comprises an entrainment motor 301, an entrainment belt 302, an entrainment left-right regulator 303 and an entrainment up-down regulator 304 which are connected in sequence from top to bottom; the two entrainment belts 302 are arranged at one end of the top of the connecting frame 201 far away from the connecting frame 201 in parallel, the entrainment left-right regulator 303 is connected with the entrainment belts 302 and is used for regulating the distance between the entrainment belts 302 and the connecting frame 201, and the entrainment up-down regulator 304 is connected with the entrainment belts 302 and is used for regulating the distance between the entrainment belts 302 and the connecting frame 201; one end of the connection frame 201 extends into the protection case 410.

It should be noted that the bottle caps transferred from the cap suction box 205 are clamped between two parallel clamping belts 302, and the next process of conveying the bottle caps from one end of the clamping belts 302 to the other end by the driving of the clamping belts 302 by the belt motor and conveying the bottle caps into the protective box 410 is, in some embodiments of the present embodiment, used for adjusting the distance between the two clamping belts 302 by the clamping left and right adjuster 303, and used for adjusting the distance between the two clamping belts 302 with respect to the connecting frame 201 or the distance between the two clamping belts 302 with respect to the cap suction box 205 by the clamping up and down adjuster 304. In some embodiments of the present embodiment, the second height adjuster 206, the second height adjuster 207, the left-right entrainment adjuster 303, and the up-down entrainment adjuster 304 are provided with lead screws.

Example 6

On the basis of embodiment 5, a mobile vacuum-pumping cap screwing machine is provided, which specifically comprises: the bottle separating and intercepting device further comprises a conveying belt driving mechanism 5, wherein the conveying belt driving mechanism 5 comprises a bottle separating and intercepting knife 501, a bottle separating electric eye detection device, a foot rest 503, a conveying belt driving variable frequency motor 504 and a conveying belt chain connecting assembly 502; divide bottle interception sword 501 and divide bottle electric eye to detect and all be located link 201 and be located lower cover guide rail 202 below, and the bottom of link 201 is connected with foot rest 503, and conveyer belt chain coupling assembling 502 and conveyer belt drive inverter motor 504 all are located protection box 410 and all are connected with conveyer belt 6.

It should be noted that, the control of the distance between the upper bottle caps of the lower cap guide rail 202 is realized through the cooperation between the bottle separating intercepting knife 501 and the bottle separating electric eye detection, the transmission of the conveyor belt 6 and the control of the transmission speed are realized through the conveyor belt driving variable frequency motor 504 and the conveyor belt chain connecting component 502, the support of the bottom of the whole device is realized through the foot rest 503, in some embodiments of the present embodiment, the foot rest 503 is provided with the movable caster 414, and the movable caster is provided with the brake component.

The foregoing shows and describes the basic principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The movable vacuumizing cap screwing machine is characterized by comprising a conveying belt (6), an automatic lifting cap arranging mechanism (1), an automatic cap hooking mechanism (2), a bottle clamping and clamping mechanism (3) and an automatic vacuumizing mechanism (4), wherein the automatic lifting cap arranging mechanism (1), the automatic cap hooking mechanism (2), the bottle clamping and clamping mechanism (3) and the automatic vacuumizing mechanism (4) are sequentially connected through the conveying belt (6), the automatic lifting cap arranging mechanism (1) is used for arranging, lifting and conveying bottle caps, the automatic cap hooking mechanism (2) is used for conveying the bottle caps to the bottle clamping and clamping mechanism (3), the bottle clamping and clamping mechanism (3) is used for grasping and transporting bottles, and the automatic vacuumizing mechanism (4) is used for vacuumizing the bottles;

wherein, automatic evacuation mechanism (4) include work module (401), work module (401) including evacuation frame (402) and gland cylinder (403), main lift cylinder (404), spiral cover cylinder (405), top body cylinder (406), evacuation cavity (407) and top body expanding spring (408) that set gradually from the top down in evacuation frame (402), evacuation cavity (407) realize vacuum operation through oil-free vacuum pump (409).

2. The mobile vacuum-pumping cap screwing machine according to claim 1, wherein the automatic vacuum-pumping mechanism (4) further comprises a protection box body (410) and a transportation module (411) positioned below the working module (401), the protection box body (410) is used for protecting the working module (401) and the transportation module (411), a touch screen control component (412) and a power supply box (413) are arranged on the protection box body (410), and the bottom of the protection box body (410), the bottom of the automatic lifting cap screwing mechanism (1) and the bottom of the conveyor belt (6) are all connected with a mobile caster (414);

the transportation module (411) comprises a working strip-shaped area (415) and an auxiliary strip-shaped area (420) which are parallel to each other, a left-right moving slide rail (416) which is the same with the working strip-shaped area in the extending direction is arranged in the working strip-shaped area (415), and the left-right moving slide rail (416) is pushed by a moving air cylinder (417) to move left and right; the two ends and the middle position of the bottom of the left-right moving slide rail (416) are provided with a front-back slide rail (418), and a slide rail cylinder (419) is arranged on the front-back slide rail (418).

3. The mobile vacuum-pumping cap screwing machine according to claim 2, characterized in that a waiting tray (421), a vacuum-pumping platform (422) and a bottle-discharging tray (423) are arranged in the working strip-shaped area (415) along the extending direction, and a bottle-feeding electric eye detection counter (424) is arranged at one end of the waiting tray (421) far away from the bottle-discharging tray (423);

one side of the left-right moving sliding rail (416) close to the waiting tray (421) is connected with an installation strip plate (425) with the same extending direction as the left-right moving sliding rail (416), a plurality of bottle clamping clip boxes (426) are arranged on one side of the installation strip plate (425) at intervals, one side of the left-right moving sliding rail (416) far away from the left-right moving sliding rail (416) is connected with a bottle clamping clip (427), and one side of the installation strip plate (425) far away from the bottle clamping clip boxes (426) is connected with a bottle clamping cylinder (428).

4. The mobile vacuum-pumping cap screwing machine as claimed in claim 3, wherein a strip-shaped push plate (429) is arranged on one side of the waiting tray (421) far away from the bottle-clamping clip box (426), a bottle-pushing cylinder (430) is connected to one side of the push plate (429) far away from the bottle-clamping clip box (426), a plurality of intercepting grooves (432) are uniformly arranged at the bottom of the push plate (429) at intervals, a bottle-intercepting cylinder (433) is arranged in each intercepting groove (432), and each intercepting cylinder (433) is connected with a intercepting plate (431); one end of the push plate (429), which is far away from the bottle outlet tray (423), is provided with a bottle pushing electric eye detection counter (434).

5. The mobile vacuum-pumping cap screwing machine according to claim 4, wherein the automatic lifting cap arranging mechanism (1) comprises a support frame (101) and a bottle cap blowing remover (102), a climbing angle adjusting assembly (103), a bottle cap hopper (104), a hopper bottom air cylinder (105) and a belt motor drive (106) which are sequentially connected with the support frame (101) from top to bottom, and the bottle cap blowing remover (102) is used for adjusting bottle caps to be in a uniform upward or downward state;

bottle lid hopper (104) top is provided with lid (107), just material passing opening (108) have been seted up on lid (107), blow bottle lid remover (102) one side and be connected with material passing plate (109), material passing plate (109) with material passing opening (108) intercommunication, material passing plate (109) are kept away from one side of material passing opening (108) is passed through climb slope angle adjusting part (103) with support frame (101) are connected.

6. The mobile vacuum cap screwing machine according to claim 5, wherein the automatic cap hooking mechanism (2) comprises a connecting frame (201), a lower cap guide rail (202), a first guide rail height adjuster (203), a first guide rail width adjuster (204), a cap sucking box (205), a second height adjuster (206) and a second height adjuster (207);

the connecting frame (201) is positioned at one side of the supporting frame (101), one end of the lower cover guide rail (202) is connected with the top end of one side of the bottle blowing cover remover (102), and the other end of the lower cover guide rail is connected with the connecting frame (201);

two ends of the lower cover guide rail (202) respectively penetrate through the first guide rail height adjuster (203) and the first guide rail width adjuster (204), and the first guide rail width adjuster (204) is connected with the bottle blowing cover remover (102);

the cover suction box (205) is connected with the connecting frame (201), the cover suction box (205) is connected with the second height adjuster (206) and used for adjusting the height of the second height adjuster (206), and the second height width adjuster (207) is connected with the second height adjuster (206) and used for adjusting the width of the second height adjuster (206).

7. The mobile vacuum cap screwing machine according to claim 6, wherein the entrainment bottle clamping mechanism (3) comprises an entrainment motor (301), an entrainment belt (302), an entrainment left-right regulator (303) and an entrainment up-down regulator (304) which are connected in sequence from top to bottom;

the two entrainment belts (302) are arranged at one end of the top of the connecting frame (201) far away from the connecting frame (201) in parallel, the entrainment left-right regulator (303) is connected with the entrainment belts (302) and is used for regulating the distance between the entrainment belts (302) and the connecting frame (201), and the entrainment up-down regulator (304) is connected with the entrainment belts (302) and is used for regulating the distance between the entrainment belts (302) and the connecting frame (201);

one end of the connecting frame (201) extends into the protective box body (410).

8. The mobile vacuum-pumping cap screwing machine according to claim 6, further comprising a conveyor belt driving mechanism (5), wherein the conveyor belt driving mechanism (5) comprises a bottle separating intercepting knife (501), a bottle separating electric eye detection device, a foot rest (503), a conveyor belt driving variable frequency motor (504) and a conveyor belt chain connecting component (502);

the bottle separating intercepting knife (501) and the bottle separating electric eye detection are both positioned on the connecting frame (201) and below the lower cover guide rail (202),

the bottom of link (201) is connected with foot rest (503), conveyer belt chain coupling assembling (502) with conveyer belt drive inverter motor (504) all are located in protection box (410) and all with conveyer belt (6) are connected.

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