CN113910498A

CN113910498A - Horizontal dress lid filling device

Info

Publication number: CN113910498A
Application number: CN202111103553.6A
Authority: CN
Inventors: 罗浩然
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-18
Filing date: 2021-09-18
Publication date: 2022-01-11

Abstract

The invention relates to a horizontal capping and filling device, belonging to the technical field of filling machines; the technical points of the invention are as follows: a horizontal type capping and filling device comprises a transmission rack, a working rack, a pressure barrel supporting frame, an air pump set, a front sliding frame, a rear sliding frame, a pressure table, a filling device and a clamp set, wherein the front sliding frame and the rear sliding frame are utilized to overcome the danger caused by using a crane and a suspension transfer mechanism, the danger coefficient is reduced, a large-sized mold can be processed and stored, parts can be processed and replaced by adopting a working mode of horizontal pushing and pressing, the large-sized mold can be prevented from being segmented, an assembling head is used for pressing and integrating, the problem that the filling production cannot be carried out due to the fact that the mold is too large is effectively solved, the assembling head directly pushes out the mold after filling is finished, clamping and hoisting are reduced, and the processing efficiency is greatly improved; the invention adopts the matching of the clamp group and the valve core, and the gas is injected quickly after the mould is filled and pressed for molding, thereby improving the working efficiency, reducing the clamping time and having wide application prospect.

Description

Horizontal dress lid filling device

Technical Field

The invention relates to a horizontal cover-mounting and filling device, and belongs to the technical field of filling machines.

Background

The filling machine is a machine for filling products into the packaging containers according to a preset amount, is widely applied, is mainly used for packaging liquid products, gas products and small particle products, and has different types according to different filling materials and different packaging containers; according to the mode of packaging container and the mode of adding the material, we divide into vertical and horizontal two kinds with the filling machine, and vertical filling application scope is wide, the packing is swift, is the most extensive filling machine that uses, because fill the jar and erect and arrange, the machine is high standing position on the whole, and then has effectively reduced the usage space, and vertical filling is mostly can automated processing simultaneously, has significantly reduced operating time and manpower resources.

The vertical filling machine has higher working efficiency and is suitable for production line type production, but the type of products is still somewhat insufficient, the most common problem is the size problem of a mould, the vertical filling machine achieves a very high standard in working efficiency, the most important reason is that the mould produced by the vertical filling machine is relatively small, the vertical filling machine has no way for processing and producing large moulds, meanwhile, a large amount of fillers required by the large moulds are not possessed by the vertical filling machine, and the vertical filling machine is vertical, so that the gravity center is often relatively high, the operation is required to depend on automation excessively, and the production cost and the maintenance cost are high; the vertical filling machine needs a crane and various suspension devices to participate in work for uninterrupted filling on a production line, and has low safety and easily causes safety problems such as collision and the like.

The horizontal capping and filling device provided by the invention greatly improves the safety performance of assembly line production, and can be used for quickly filling large molds.

Disclosure of Invention

The invention mainly solves the technical problems that: the invention provides a horizontal capping and filling device, aiming at the problems that a vertical filling machine cannot quickly fill a large mold due to a small mold, and meanwhile, a common large mold is too heavy, too complex and unsafe in a filling process.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a horizontal dress lid filling device, includes transmission frame, work frame, pressure bucket support frame, air pump group, preceding carriage, back carriage, pressure platform, filling device, its characterized in that of anchor clamps group:

the top surface of the transmission frame is slidably connected with the moving platform, a through groove is arranged below the moving platform, a central line position in the through groove is fixedly connected with a screw shaft sleeve, the screw shaft sleeve is in threaded connection with a screw shaft, the tail end of the screw shaft is rotatably connected with a tailstock, the thread starting position at the other end of the screw shaft is rotatably connected with a screw shaft seat, a key connection handle is connected between the screw shaft seat and the top end of the screw shaft, the axis of the screw shaft is superposed with the central line of the top surface of the transmission frame, the tailstock and the screw shaft seat are fixedly connected on the transmission frame, a support is arranged above the moving platform, a semi-open through hole is arranged at the central line position of the support, a vent shaft is fixedly connected in the semi-open through hole, an external port is arranged at the end of the vent shaft close to the handle, the other end of the vent shaft is fixedly connected with an assembly head, the assembly head is fixedly connected with a nested valve core in a nested manner, a clamped ring is arranged at the tail end of the valve core, the diameter of the clamped ring is between the inner diameter of the vent shaft and the outer diameter of the valve core is fixedly connected with a check valve, and the check valve is made of rubber, the middle line position of the inner diameter of the valve core is rotationally connected with a one-way valve, the one-way valve can rotate 0-45 degrees counterclockwise, and the axes of the vent shaft, the assembly head and the valve core are mutually overlapped;

the working machine frame is a cuboid, two sides of the side face, close to the transmission frame, of the working machine frame are fixedly connected with a left long stand column and a right long stand column respectively, the side faces of the tops of the left long stand column and the right long stand column are fixedly connected with a front sliding frame, two sides of the center line position of the front sliding frame are fixedly connected with a front moving plate, the top face of the working machine frame is fixedly connected with a square panel, two ends of the side edge, far away from the transmission frame, of the square panel are fixedly connected with a left short stand column and a right short stand column respectively, the side faces of the tops of the left short stand column and the right short stand column are fixedly connected with a rear sliding frame, two sides of the center line position of the rear sliding frame are fixedly connected with a rear moving plate, the center lines of the front moving plate and the rear moving plate are located on the same horizontal line, and grooves are uniformly formed in the surfaces of the front moving plate and the rear moving plate; the front face of the front moving plate is connected with a first air pump frame through a bolt, a first air pump is fixedly connected in the first air pump frame, a through hole is formed in the joint of the first air pump and the bottom face of the first air pump frame, a pressing table is arranged below the through hole, a clamp rod is connected in the through hole in a sliding mode, the clamp rod penetrates through a sliding block and is fixedly connected to the top of a clamp group, an air hole is formed in the top of the clamp group, a separation block is fixedly connected to the center line of the lower portion of the clamp group, two side faces of the separation block are symmetrically and slidably connected with two movable plates, a sliding rod is arranged at the horizontal center line of each movable plate, the sliding rod penetrates through the through hole in the bottom of the separation block and is respectively and slidably connected with the two movable plates, the bottom faces of the movable plates and the sliding rod are symmetrically distributed and fixedly connected with the two clamping blocks, the ratio of the upper bottom faces of the clamping blocks to the lower bottom faces is 0.8:1, and the distance between the upper bottom faces of the two clamping blocks is 0.3-0.5 times higher than the upper bottom faces of the two clamping blocks; the reverse side of the front moving plate is connected with a second air pump frame through a bolt, a second air pump is fixedly connected in the second air pump frame, a through hole is formed in the bottom of the second air pump frame and is communicated into the second air pump, an air pump rod is connected in the through hole of the second air pump frame in a sliding mode and penetrates through the through hole of the bottom of the second air pump frame and is fixedly connected to the upper surface of the pressing table, the upper surface of the pressing table is a plane, the lower surface of the pressing table is an arc surface, the diameter of the arc surface is consistent with that of the pressing barrel, a trapezoidal groove is formed in the lower surface of the pressing table, and the trapezoidal groove extends to a neutral line position from the end, close to the clamp group, of the pressing table; the rear movable plate is connected with a third air pump frame through bolts, a third air pump is fixedly connected in the third air pump frame, a through hole is formed in the bottom of the third air pump frame and communicated into the second air pump, an air pump rod is connected in the through hole of the third air pump in a sliding mode and penetrates through the through hole in the bottom of the third air pump frame and is fixedly connected onto a tail connecting plate, a tail cover is arranged below the central line of the tail connecting plate, and a through hole concentric with the through hole in the bottom of the third air pump frame is formed in the circumferential direction of the tail cover;

the barrel pressing support frame is fixedly connected to the upper surface of the square panel, a semicircular through groove is formed in the center line of the top surface of the barrel pressing support frame, a downward pressing barrel is fixedly connected in the semicircular through groove, the left side of the upper plane of the downward pressing barrel is rotatably connected with a left pressing barrel, the right side of the upper plane of the downward pressing barrel is rotatably connected with a right pressing barrel, a tail cover is arranged at one end of the downward pressing barrel in the axial direction, a positioning block is nested on the circumferential side face of the tail cover, and an assembling head is in clearance fit with the other end of the downward pressing barrel in the axial direction; the utility model discloses a pneumatic pump assembly, including a left side pressure bucket, a right side pressure bucket, the elbow is connected to the transfer line rotation, the elbow shrink is connected single air pump pole, single air pump pole passes two air pump poles's centre bore and sliding connection in air pump group central line department through-hole, two air pump pole sliding connection in air pump group central line both sides, air pump group central line department is equipped with the through-hole, sliding connection single air pump pole in the through-hole, air pump group central line department through-hole axis below is equipped with the air pump, air pump upper end fixed connection single air pump pole, the air pump lower extreme is equipped with the gas filling hole, the contained angle between air pump and the horizontal plane is 50~ 80.

Preferably, the transmission frame is a cuboid, and the ratio of length, width and height is as follows: 2:1:1.

Preferably, the outer diameter of the valve spool is clearance fit with the inner diameter of the vent shaft.

Preferably, the check valve is between the head end of the spool and the neutral line.

Preferably, the top surfaces of the left long upright, the right long upright, the left short upright and the right short upright are positioned on the same horizontal plane.

Preferably, the cross section of the clamping block is in a right-angle trapezoid shape.

Preferably, the oblique edge of the clamping block is tangent to the outer diameter of the valve core.

Preferably, the distance between the two side surfaces of the clamping block is between the projection of the right-angle side of the check valve and the clamping ring.

Preferably, the axes of the single air pump rod and the air pump are coincident with the central line of the air pump set.

The invention has the beneficial effects that:

(1) the invention designs a horizontal capping and filling device which can store a mold with larger volume and more difficult processing and filling, overcomes the danger caused by using a crane and a suspension transfer mechanism by utilizing front and rear sliding frames, reduces the danger coefficient, processes and replaces parts by adopting a working mode of horizontal push pressing, can place a large mold in sections and use an assembly head to press the large mold into a whole, effectively solves the problem that the filling production cannot be carried out due to the overlarge mold, and directly ejects the mold by the assembly head after the filling is finished, reduces the clamping and lifting and greatly improves the processing efficiency; the invention adopts the matching of the clamp group and the valve core, and the gas is injected quickly after the mould is filled and pressed for molding, thereby improving the working efficiency, reducing the clamping time and having wide application prospect.

Drawings

Fig. 1 is an isometric schematic view of a horizontal lidding and filling device according to the present invention.

Fig. 2 is a rear isometric view of the horizontal lidding and filling device of the present invention.

Fig. 3 is an isometric view of a loading unit of the horizontal cap filling apparatus of the present invention.

FIG. 4 is a front view of a filling unit of the horizontal cap filling apparatus of the present invention.

Fig. 5 is a left side view of the barrel-pressing part of the horizontal cap-filling apparatus of the present invention.

Fig. 6 is a rear isometric semi-sectional view of the horizontal lidding and filling device of the present invention.

Fig. 7 is a front view of the horizontal cap filling apparatus of the present invention.

Fig. 8 is a left side view of the horizontal cap filling apparatus of the present invention.

Fig. 9 is a top view of the horizontal cap filling apparatus of the present invention.

FIG. 10 is a front view, in half section, of the horizontal lidding and filling device of the present invention.

Fig. 11 is a structural view of an air pump of the horizontal cap filling apparatus of the present invention.

FIG. 12 is a schematic half-section view of a valve core of the horizontal cap filling device of the present invention.

FIG. 13 is an enlarged view of the filling position of the horizontal cap filling apparatus according to the present invention.

Fig. 14 is an isometric view of a clamp of the horizontal cap filling apparatus of the present invention.

Fig. 15 is an enlarged schematic view of a valve core of the horizontal cap filling device of the present invention.

Wherein, 1, a transmission frame; 101. a handle; 102. a screw shaft seat; 103. a wire shaft; 104. a wire sleeve; 105. a mobile station; 106. a tailstock; 107. a support; 108. a ventilation shaft; 109. assembling a head; 110. nesting; 111. an external interface; 2. a working frame; 201. a left long upright post; 202. a right long upright post; 203. a left short upright post; 204. a right short upright post; 205. a square panel; 3. pressing a barrel supporting frame; 301. a tail cover; 302. a transmission rod; 303. left pressing the barrel; 304. positioning blocks; 305. pressing the barrel downwards; 306. right pressing the barrel; 4. an air pump unit; 401. bending the pipe; 402. a single air pump rod; 403. a dual air pump rod; 404. an air pump; 405. air holes; 5. a front sliding frame; 501. moving the movable plate forwards; 6. a rear slide frame; 601. moving the plate backwards; 7. pressing the table; 701. a connecting plate; 702. a third air pump frame; 703. a second air pump; 704. a third air pump; 705. a second air pump frame; 706. a first air pump mount; 707. a first air pump; 8. a filling device; 801. a one-way valve; 802. a check valve; 803. a clamping ring; 9. a clamp group; 901. a clamp rod; 902. a separation block; 903. a flap; 904. a slide bar; 905. a clamping block; 906. a slide block.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1-14, the horizontal capping and filling device of the invention comprises a transmission rack 1, a working rack 2, a barrel pressing support frame 3, an air pump set 4, a front sliding frame 5, a rear sliding frame 6, a pressing table 7 and a filling device 8, wherein a clamp set 9 is characterized in that:

1 top surface sliding connection mobile station 105 of transmission frame, mobile station 105 below is equipped with logical groove, leads to inslot central line position fixed connection silk axle sleeve 104, silk axle sleeve 104 threaded connection silk axle 103, and the tail end of silk axle 103 is rotated and is connected tailstock 106, and the originated department of silk axle 103 other end screw rotates and connects silk axle seat 102, and key-type connection handle 101 between silk axle seat 102 and the silk axle 103 top, silk axle 103 axis and the coincidence of 1 top surface central line of transmission frame, transmission frame 1 is the cuboid, and the ratio of length width height is: 2:1: 1; the tailstock 106 and the screw shaft seat 102 are fixedly connected to the transmission rack 1, a support 107 is arranged above the moving platform 105, a half-opening through hole is formed in the center line position of the support 107, a vent shaft 108 is fixedly connected in the half-opening through hole, an outer connector 111 is arranged at the end, close to the handle 101, of the vent shaft 108, the other end of the vent shaft 108 is fixedly connected with an assembly head 109, the assembly head 109 is fixedly connected with a nest 110, the nest 110 is connected with the valve core 8 in a clamping and embedding manner, a clamping and embedding ring 803 is arranged at the tail end of the valve core 8, the diameter of the clamping and embedding ring 803 is between the inner diameter and the outer diameter of the vent shaft 108, and the outer diameter of the valve core 8 is in clearance fit with the inner diameter of the vent shaft 108; the outer diameter of the valve core 8 is fixedly connected with a check valve 802, the check valve 802 is made of rubber, the central line position of the inner diameter of the valve core 8 is rotatably connected with a check valve 801, the check valve 801 can rotate 0-45 degrees counterclockwise, and the check valve 802 is arranged between the head end and the central line of the valve core 8; the axes of the vent shaft 108, the assembly head 109 and the valve core 8 coincide with each other; the working machine frame 2 is a cuboid, two sides of the side surface of the working machine frame 2 close to the transmission machine frame 1 are respectively fixedly connected with a left long upright 201 and a right long upright 202, the side surfaces of the tops of the left long upright 201 and the right long upright 202 are fixedly connected with a front sliding frame 5, and the top surfaces of the left long upright 201, the right long upright 202, the left short upright 203 and the right short upright 204 are positioned on the same horizontal plane; the two sides of the central line position of the front sliding frame 5 are fixedly connected with a front moving plate 501, the top surface of the working rack 2 is fixedly connected with a square panel 205, the two ends of the side edge of the square panel 205 far away from the transmission rack 1 are respectively and fixedly connected with a left short upright column 203 and a right short upright column 204, the side surfaces of the tops of the left short upright column 203 and the right short upright column 204 are fixedly connected with a rear sliding frame 6, the two sides of the central line position of the rear sliding frame 6 are fixedly connected with a rear moving plate 601, the central lines of the front moving plate 501 and the rear moving plate 601 are positioned on the same horizontal line, and the surfaces of the front moving plate 501 and the rear moving plate 601 are uniformly provided with grooves; the front face of the front moving plate 501 is connected with a first air pump frame 706 through a bolt, a first air pump 707 is fixedly connected in the first air pump frame 706, a through hole is formed in the joint of the first air pump 707 and the bottom face of the first air pump frame 706, a pressing table 7 is arranged below the through hole, a clamp rod 901 is connected in the through hole in a sliding mode, the clamp rod 901 penetrates through a sliding block 906 and is fixedly connected to the top of a clamp group 9, an air hole is formed in the top of the clamp group 9, a separation block 902 is fixedly connected to the center line below the clamp group 9, two sides of the separation block 902 are symmetrically and slidably connected with two flaps 903, a sliding rod 904 is arranged at the horizontal center line of the flaps 903, the sliding rod 904 penetrates through the through hole in the bottom of the separation block 902 and is respectively and slidably connected with the two flaps 903, the bottom faces of the flaps 903 and the sliding rod 904 are symmetrically distributed and fixedly connected with two clamping blocks 905, the ratio between the upper bottom face and the lower bottom face of the clamping blocks 905 is 0.8:1, and the distance between the upper bottom faces of the two clamping blocks 905 is 0.3-0.5 times higher than the lower bottom face; (ii) a The cross section of the clamping block 905 is in a right trapezoid shape; the bevel edge of the clamping block 905 is tangent to the outer diameter of the valve core 8; the distance between the two side surfaces of the clamping block 905 is between the projection of the right-angle side of the check valve 802 and the clamping ring 803; the reverse side of the front movable plate 501 is connected with a second air pump frame 705 through bolts, a second air pump 703 is fixedly connected in the second air pump frame 705, a through hole is formed in the bottom of the second air pump frame 705 and is communicated into the second air pump 703, an air pump rod is connected in the through hole of the second air pump 703 in a sliding mode, penetrates through the through hole in the bottom of the second air pump frame 705 and is fixedly connected to the upper surface of the pressing table 7, the upper surface of the pressing table 7 is a plane, the lower surface of the pressing table 7 is an arc surface, the diameter of the arc surface is consistent with that of the pressing barrel 302, a trapezoidal groove is formed in the lower surface of the pressing table 7, and the trapezoidal groove extends to a neutral line position from the end, close to the clamp group 9, of the pressing table 7; the rear movable plate 601 is connected with a third air pump frame 702 through bolts, a third air pump 704 is fixedly connected in the third air pump frame 702, a through hole is formed in the bottom of the third air pump frame 702 and is communicated into the second air pump 704, an air pump rod is connected in the through hole of the third air pump 704 in a sliding mode, penetrates through the through hole in the bottom of the third air pump frame 702 and is fixedly connected onto a tail connecting plate 701, a tail cover 301 is arranged below the center line of the tail connecting plate 701, and through holes are formed in the circumferential direction of the tail cover 301 and are concentric with the through hole in the bottom of the third air pump frame 702; the barrel pressing support frame 3 is fixedly connected to the upper surface of the square panel 205, a semicircular through groove is formed in the center line of the top surface of the barrel pressing support frame 3, a lower pressing barrel 305 is fixedly connected in the semicircular through groove, the lower pressing barrel 305 is semicircular, the left side of the upper plane of the lower pressing barrel 305 is rotatably connected with the left pressing barrel 303, the right side of the upper plane of the lower pressing barrel 305 is rotatably connected with the right pressing barrel 306, a tail cover 301 is arranged at one end of the lower pressing barrel 305 in the axial direction, a positioning block 304 is nested on the circumferential side surface of the tail cover 301, and the other end of the lower pressing barrel 305 in the axial direction is in clearance fit with the assembling head 109; the center line positions of the side surfaces of the left pressure barrel 303 and the right pressure barrel 306 are provided with a transmission rod 302, the transmission rod 302 is rotatably connected with an elbow 401, the elbow 401 is connected with a single air pump rod 402 in a shrinkage mode, the single air pump rod 402 penetrates through a center hole of a double air pump rod 403 and is connected with a through hole at the center line of an air pump group 4 in a sliding mode, the double air pump rod 403 is connected to two sides of the center line of the air pump group 4 in a sliding mode, the center line of the air pump group 4 is provided with a through hole, the single air pump rod 402 is connected in the through hole in a sliding mode, an air pump 404 is arranged below the axis of the through hole at the center line of the air pump group 4, the upper end of the air pump 404 is fixedly connected with the single air pump rod 402, the lower end of the air pump 404 is provided with an air charging hole 405, and the included angle between the air pump 404 and the horizontal plane is 50-80 degrees; the axes of the single air pump rod 402 and the air pump 404 are coincident with the central line of the air pump set 4.

The working principle of the invention is as follows:

and (3) filling the die:

adjusting an air pump set 4, namely putting down a right pressing barrel 306 on a pressing barrel 305 to enable the side edge of the right pressing barrel to be parallel to the upper surface of the square panel 205, putting a mold to be filled into the right pressing barrel 306, if the mold is too large and too heavy, rolling the mold into the right pressing barrel 306 from the square panel 205, adjusting the air pump set 4 to enable the right pressing barrel 306 to rotate around the side edge of the pressing barrel 305 and send the mold into the pressing barrel 305, and at the moment, forming a pressing barrel set by the pressing barrel 305, the right pressing barrel 306 and the left pressing barrel 303; adjusting a second air pump 703 to make the upper surface of the pressing table 7 parallel to the upper surfaces of the right pressing barrel 306 and the left pressing barrel 303, and simultaneously making the arc of the lower surface of the pressing table 7 tangent to the inner arc of the lower pressing barrel 305 to press the pressing barrel group, wherein a fresh air pump can be added in the middle of the pressing table 7 according to the sizes of different workpieces to improve the fixing effect; and adjusting the third air pump 704 to fix the tail cover 301 to complete the mold filling.

And (3) installing a valve core:

the valve core 8 is placed into the vent shaft 108, the clamping rings 803 are filled in sequence, one or more than one valve core can be placed, the external port 111 arranged on the vent shaft 108 is externally connected with a filler pump, the valve core 8 in the vent shaft 108 is completely jacked into the assembling head 109 by using filler pressure, the check valve 802 extends out of the nesting 110, the clamping rings 803 are clamped into the nesting 110, the one-way valve 801 arranged in the valve core 8 is used for ensuring the smooth filling of filler and preventing backflow or leakage, and the filling of the injected material is suspended; adjusting first air pump 707, making anchor clamps group 9 downwardly extending and installing and clip case 8, guaranteeing the stability of case 8, prevent to drop or fix a position inaccurately, pass through between anchor clamps group 9 and the pressure platform 7, anchor clamps pole 901 and slider 906 cooperate and have confirmed the slip track of case 8, improve work efficiency greatly, reduce the error, accomplish the case installation.

Filling work:

the handle 101 is rotated to move the vent shaft 108 forward along the axial direction, the valve core 8 is fixed by the clamp group 9 and inserted into the mold, the surface check valve 802 is totally immersed into the mold, the assembling head 109 moves forward and gradually compresses the mold, the assembling head is axially matched with the tail cover 301 and radially matched with the pressing table 7, a large mold or a sectional mold is combined into a whole, in order to ensure that the clamp group 9 between the mold and the assembling head 109 is not damaged by clamping, a certain shape or a high-quality clamp head is adopted, and after the mold is combined into a whole, the capping step is completed.

Starting a filler pump externally connected with an external port 111, completely injecting filler into a mold through a vent shaft 108 and a valve core 8 inside the vent shaft 108, rotating a handle 101 after the injection is completed according to a preset amount, enabling the vent shaft 108 to move backwards along the axis direction, fixing the valve core 8 by a clamp group 9, locking the valve core 8 by a check valve 802 clamped and embedded in the mold, enabling an embedding ring 803 to fall off from an embedding sleeve 110 under the backward acting force of the vent shaft 108, enabling the valve core 8 to fall off and be embedded in an air inlet of the mold, and completing the filling; the tail cover 301 is detached, the handle 101 is rotated, the vent shaft 108 moves forwards along the axial direction, the die is ejected out of the tail cover 301 to press the barrel group, the handle 101 is rotated, the vent shaft 108 moves backwards along the axial direction to the original position, the clamp group 9 moves to the original position, the air pump group 4 is adjusted, the right pressure barrel 306 on the lower pressure barrel 305 is put down, and one-time capping and filling is completed.

Claims

1. The utility model provides a horizontal dress lid filling device, includes transmission frame (1), work frame (2), presses bucket support frame (3), air pump group (4), preceding carriage (5), back carriage (6), presses platform (7), filling device (8), anchor clamps group (9) its characterized in that:

the top surface of the transmission rack (1) is slidably connected with a mobile platform (105), a through groove is arranged below the mobile platform (105), a central line position in the through groove is fixedly connected with a wire shaft sleeve (104), the wire shaft sleeve (104) is in threaded connection with a wire shaft (103), the tail end of the wire shaft (103) is rotatably connected with a tailstock (106), the thread starting position at the other end of the wire shaft (103) is rotatably connected with the wire shaft seat (102), the wire shaft seat (102) is in key connection with a handle (101) at the top end of the wire shaft (103), the axis of the wire shaft (103) is superposed with the central line of the top surface of the transmission rack (1), the tailstock (106) and the wire shaft seat (102) are fixedly connected on the transmission rack (1), a support (107) is arranged above the mobile platform (105), a semi-open through hole is arranged at the central line position of the support (107), a ventilation shaft (108) is fixedly connected in the semi-open through hole, an external interface (111) is arranged at the end of the ventilation shaft (108) close to the handle (101), the other end of the vent shaft (108) is fixedly connected with an assembling head (109), the assembling head (109) is fixedly connected with a nesting sleeve (110), the nesting sleeve (110) is connected with a valve core (8) in a nesting manner, a nesting ring (803) is arranged at the tail end of the valve core (8), the diameter of the nesting ring (803) is between the inner diameter and the outer diameter of the vent shaft (108), the outer diameter of the valve core (8) is fixedly connected with a check valve (802), the check valve (802) is made of rubber, the center line position of the inner diameter of the valve core (8) is rotatably connected with a check valve (801), the check valve (801) can rotate 0-45 degrees in a counterclockwise direction, and the axes of the vent shaft (108), the assembling head (109) and the valve core (8) are mutually overlapped;

the working rack (2) is a cuboid, two sides of the side surface of the working rack (2) close to the transmission rack (1) are respectively fixedly connected with a left long upright column (201) and a right long upright column (202), the top side surfaces of the left long upright column (201) and the right long upright column (202) are fixedly connected with a front sliding frame (5), two sides of the center line position of the front sliding frame (5) are fixedly connected with a front moving plate (501), the top surface of the working rack (2) is fixedly connected with a square panel (205), two ends of the side edge of the square panel (205) far away from the transmission rack (1) are respectively fixedly connected with a left short upright column (203), the side surfaces of the tops of the left short upright column (203) and the right short upright column (204) are fixedly connected with a rear sliding frame (6), two sides of the center line position of the rear sliding frame (6) are fixedly connected with a rear movable plate (601), the center lines of the front movable plate (501) and the rear movable plate (601) are positioned on the same horizontal line, and grooves are uniformly formed in the surfaces of the front movable plate (501) and the rear movable plate (601); the front face of the front movable plate (501) is connected with a first air pump frame (706) through a bolt, a first air pump (707) is fixedly connected in the first air pump frame (706), a through hole is formed in the joint of the first air pump (707) and the bottom face of the first air pump frame (706), a pressing table (7) is arranged below the through hole, a clamp rod (901) is connected in the through hole in a sliding manner, the clamp rod (901) penetrates through a sliding block (906) and is fixedly connected to the top of a clamp group (9), an air hole is formed in the top of the clamp group (9), a separation block (902) is fixedly connected to the center line of the lower portion of the clamp group (9), two flaps (903) are symmetrically connected to the two side faces of the separation block (902) in a sliding manner, a sliding rod (904) is arranged at the horizontal center line of the flaps (903), the sliding rod (904) penetrates through the through hole in the bottom of the separation block (902) and is respectively connected with the two flaps (903) in a sliding manner, and two clamping blocks (905) are symmetrically distributed and fixedly connected between the bottom face of the slide rod (903), the ratio of the upper bottom surfaces to the lower bottom surfaces of the clamping blocks (905) is 0.8:1, and the distance between the upper bottom surfaces of the two clamping blocks (905) is 0.3-0.5 times of the height of the clamping blocks; the reverse side of the front movable plate (501) is connected with a second air pump frame (705) through a bolt, a second air pump (703) is fixedly connected in the second air pump frame (705), a through hole is formed in the bottom of the second air pump frame (705) and is communicated into the second air pump (703), an air pump rod is connected in the through hole of the second air pump (703) in a sliding mode, penetrates through the through hole in the bottom of the second air pump frame (705) and is fixedly connected to the upper surface of the pressing table (7), the upper surface of the pressing table (7) is a plane, the lower surface of the pressing table (7) is an arc surface, the diameter of the arc surface is consistent with that of the pressing barrel (302), a trapezoidal groove is formed in the lower surface of the pressing table (7), and extends to a neutral line position from the end, close to the clamp group (9), of the pressing table (7); the rear movable plate (601) is connected with a third air pump frame (702) through bolts, a third air pump (704) is fixedly connected in the third air pump frame (702), a through hole is formed in the bottom of the third air pump frame (702) and is communicated into the second air pump (704), an air pump rod is connected in the through hole of the third air pump (704) in a sliding mode, penetrates through the through hole in the bottom of the third air pump frame (702) and is fixedly connected to the tail connecting plate (701), a tail cover (301) is arranged below the central line of the tail connecting plate (701), and a through hole which is concentric with the through hole in the bottom of the third air pump frame (702) is formed in the circumferential direction of the tail cover (301);

the barrel pressing support frame (3) is fixedly connected to the upper surface of the square panel (205), a semicircular through groove is formed in the center line of the top surface of the barrel pressing support frame (3), a downward pressing barrel (305) is fixedly connected in the semicircular through groove, the downward pressing barrel (305) is semicircular, the left side of the upper plane of the downward pressing barrel (305) is rotatably connected with the left pressing barrel (303), the right side of the upper plane of the downward pressing barrel (305) is rotatably connected with the right pressing barrel (306), a tail cover (301) is arranged at one end of the downward pressing barrel (305) in the axial direction, a positioning block (304) is nested in the circumferential side face of the tail cover (301), and the other end of the downward pressing barrel (305) in the axial direction is in clearance fit with the assembling head (109); the left pressure barrel (303) and the right pressure barrel (306) are provided with a transmission rod (302) at the side center line position, the transmission rod (302) is rotatably connected with an elbow (401), the elbow (401) is connected with a single air pump rod (402) in a shrinkage mode, the single air pump rod (402) penetrates through a center hole of a double air pump rod (403) and is connected with a through hole in the center line of an air pump group (4) in a sliding mode, the double air pump rod (403) is connected to two sides of the center line of the air pump group (4) in a sliding mode, the center line of the air pump group (4) is provided with a through hole, the single air pump rod (402) is connected in the through hole in a sliding mode, an air pump (404) is arranged below the axis of the through hole in the center line of the air pump group (4), the upper end of the air pump (404) is fixedly connected with the single air pump rod (402), the lower end of the air pump (404) is provided with an air adding hole (405), and the included angle between the air pump (404) and the horizontal plane is 50-80 degrees.

2. The horizontal capping and filling device according to claim 1, wherein the transmission rack (1) is a cuboid, and the ratio of length, width and height is as follows: 2:1:1.

3. The horizontal cap-filling apparatus according to claim 1, wherein the outer diameter of the valve core (8) is clearance-fitted with the inner diameter of the vent shaft (108).

4. The horizontal cap filling apparatus according to claim 1, wherein the check valve (802) is between the head end of the valve core (8) and the center line.

5. The horizontal capping and filling device according to claim 1, wherein the top surfaces of the left long upright (201), the right long upright (202), the left short upright (203) and the right short upright (204) are located on the same horizontal plane.

6. The horizontal capping and filling apparatus according to claim 1 wherein the cross-section of the clamp block (905) is a right trapezoid.

7. The horizontal cap filling device according to claim 1, wherein the oblique edge of the clamp block (905) is tangent to the outer diameter of the valve core (8).

8. The horizontal capping and filling apparatus of claim 1 wherein the distance between the two sides of the clamp block (905) is between the right-angle projection of the check valve (802) and the snap ring (803).

9. The horizontal capping and filling apparatus according to claim 1, wherein the axes of the single air pump rod (402) and the air pump (404) coincide with the center line of the air pump unit (4).