CN111268622B - Normal-pressure rotary filling machine - Google Patents

Abstract

The invention discloses a normal pressure rotary filling machine, the structure of which comprises: the invention realizes that the linear distance angle modulation disc groove is matched with the support round platform seat to form a loading pretreatment, then the angular speed of the outer frame ring shell is matched with the linear speed diagonal operation of the inclined strut slide block rod to form an interlaced coordinate net, so that the angle modulation disc and the slide pull frame rod form a semi-ring type continuity for supplying a gradient pushing injection effect, the stability of up-and-down alignment of bottle bodies one by one is ensured, a horizontal alignment fixed shaft effect is also formed by the injection tube inner core and the bottle body shaft center opening, the stable accommodation of the whole filling liquid column is facilitated, the whole gradient frame structure forms a progressive and fluctuating depth adjustment, the three-direction superposition angle modulation operation of the whole disc is ensured, and the precise correction effect of three-dimensional coordinate points of the normal pressure rotation type is improved, the deviation rate of the filling is reduced.

Description

Normal-pressure rotary filling machine

Technical Field

The invention relates to a normal-pressure rotary filling machine, belonging to the field of filling equipment.

Background

The conveyer belt cooperation top of round platform fills the quantitative packing effect that the mouth formed a bottled material liquid about the liquid filling machine was used, makes the big batch of whole filling even supply the assembly line to go on in order, and efficient, lets holistic automated processing obtain stable autonomous operation effect, and the public shortcoming of treating optimizing of prior art has:

a common filling machine utilizes a rotary type one-by-one injection cap pipe with capacity matched with air cylinder pressure to perform filling operation to position and load materials, but rotary angular velocity and gradient linear velocity of longitudinal feeding can be interwoven to cause a phenomenon of cross interference and offset in vertical propulsion, so that linear velocity ends of angular velocity positioning sensing are equipped with sensors, the cost of electronic detection limiting parts is consumed, the sensors are erected in batches, load is generated for an integral hanger body, the air pump pressure recoil load of a filling hanging disc is increased rapidly, the supply of rotary angular velocity precision and line distance material liquid quantity is slow, and continuous action of offset filling is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a normal-pressure rotary filling machine to solve the problems that the commonly used filling machine positions and loads materials by using a rotary one-by-one injection cap pipe with the capacity matched with the air cylinder pressure, but the rotary angular velocity and the gradient linear velocity of longitudinal feeding are interwoven to cause the phenomenon of interference offset of vertical propulsion intersection, so that the linear velocity ends of angular velocity positioning sensing are provided with sensors, the cost of an electronic detection limiting part is consumed, the sensors are erected in batches to generate load for the whole hanger body, the pressure recoil load of an air pump of a filling hanger plate is increased rapidly, the supply of rotary angular velocity precision and line distance material liquid quantity is slow, and the continuous action of offset filling is caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: a normal pressure rotary filling machine structurally comprises: the electric control display panel is electrically connected with the wire rack bar, the wire rack bar is inserted in the right upper corner of the motor base box and is vertical to each other, the front baffle frame is arranged on the front side of the strut round table seat, the strut round table seat is inserted in the bottom of the wire-distance angle-adjusting disk groove and is collinear with the axis, the strut round table seat is tightly attached to the top surface of the motor base box, the wire-distance angle-adjusting disk groove is provided with an outer frame ring shell, an injection hole gradient frame, a short cylinder cover groove, a square frame sliding rail, an inclined strut sliding block rod, an angle-adjusting shaft wheel disc, a sliding puller rack bar and a sliding block seat, the outer frame ring shell and the short cylinder cover groove are of an integrated structure and are collinear, the square frame sliding rail and the diagonal bracing sliding block rod are nested into a whole and are positioned on the same vertical surface, the square frame sliding rail is arranged inside the short barrel cover groove, four injection holes are arranged in a gradient mode and are fixed together around the circle center of the outer frame ring shell, the diagonal bracing sliding block rod is arranged on the front side of the angle adjusting shaft wheel disc, the angle adjusting shaft wheel disc is mechanically connected with the sliding pull rack rod and is positioned on the same vertical surface, the sliding block seat is movably connected with the square frame sliding rail and is positioned on the same horizontal line, and the short barrel cover groove is arranged at the upper left corner of the lead rack rod.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the injection hole gradient frame consists of a side concave gradient groove, a nylon pull pipe and an injection nozzle hole groove, wherein the side concave gradient groove is movably connected with the nylon pull pipe and is positioned on the same inclined line, and the nylon pull pipe is buckled with the injection nozzle hole groove together.

As a further improvement of the invention, the side concave gradient groove consists of two jaw groove clamping rods, two gradient louver grooves, two side arc capsule wall blocks and an inner concave narrow groove, the two jaw groove clamping rods are respectively nested at the upper side and the lower side of the gradient louver groove, the gradient louver grooves are arranged inside the side arc capsule wall blocks and are communicated with each other, and the side arc capsule wall blocks and the inner concave narrow groove are in interference fit.

As a further improvement of the invention, the inclined strut sliding block rod consists of a damping sliding block, a strip plate groove rod and a button wheel, wherein the damping sliding block and the strip plate groove rod are in clearance fit and are positioned on the same inclined line, and the strip plate groove rod and the button wheel are buckled together.

As a further improvement of the invention, the damping sliding collision block consists of a gel spacer block, a cylindrical groove, two damping laminated plate frames and an arc support inner cavity, wherein the gel spacer block is inserted in the cylindrical groove and is positioned on the same vertical surface, the two cylindrical grooves are respectively nested on the left side and the right side of the arc support inner cavity, and the damping laminated plate frames are arranged in the arc support inner cavity and have collinear axes.

As a further improvement of the invention, the frame rod of the sliding machine consists of a fan plate double-rail block, a connecting rod and a gear sliding valve, wherein the fan plate double-rail block is mechanically connected with the gear sliding valve through the connecting rod, and the fan plate double-rail block and the gear sliding valve are respectively arranged at the upper end and the lower end of the connecting rod and are positioned on the same vertical plane.

As a further improvement of the invention, the fan plate double-rail block consists of a thin rail rod, a bee-lattice net groove, a fan plate block and a spring wire ball rod, wherein the bee-lattice net groove is provided with two thin rail rods, the two bee-lattice net grooves are respectively arranged at the upper side and the lower side in the fan plate block, the thin rail rods and the fan plate block are welded into a whole and are positioned on the same cambered surface, and the spring wire ball rod is inserted in the fan plate block.

As a further improvement of the invention, the gear slide valve comprises a cross gauge rod, an elastic tube traction wheel, an earflap ball valve shell and a ratchet rod gear disc, wherein the cross gauge rod is inserted and embedded in the earflap ball valve shell, and the elastic tube traction wheel and the ratchet rod gear disc are respectively arranged at the upper left corner and the lower right corner of the cross gauge rod and are positioned on the same vertical plane.

As a further improvement of the invention, the gradient louver groove is a louver groove structure which is narrow at the upper part and narrow at the lower part, wide at the middle part and thick and is alternately communicated with the whole tooth flaps, so that a semi-ring closed continuous-supply filling effect is conveniently formed by gradient type diagonal-pulling injection holes, the normal-pressure rotation stability of one-by-one filling is improved, and the offset of equipment is also improved.

As a further improvement of the invention, the gel spacer block is of a semi-elliptical limiting supporting plate structure with inclined reinforcing ribs at the sides of the long vertical plates, so that the left and right inclined cross alignment of the inner top laminated plates is facilitated to form a spring-structured plate stamping damping motion effect, and the linear speed propelling distance of a cross coordinate system can be ensured to adjust the balance weight.

As a further improvement of the invention, the spring wire ball rod is of a thick bent rod structure with a crescent arc plate pressing and covering the spring wire in the ball, so that the quartering opposite-supporting angle-adjusting operation of the track disc sliding brush is facilitated, and the stable protection degree of the whole axis against the anti-run-out deviation is improved.

As a further improvement of the invention, the transverse gauge distance rod is of a bar rod structure with left and right belt rib overlapping rings, wide and thick, and thin and narrow in the middle, so that the narrow rod can measure the lead angular velocity linear distance of the inner wheel conveniently, and the linear velocity of the integral hoisting wheel disc rack in deep perfusion is adjusted.

As a further improvement of the invention, the valve casing of the ear valve is of a ball valve casing structure with a ball groove with an oval convex arc top and a middle jaw on the left and right, so that the horizontal arc surfaces of the left and right convex arcs can slide conveniently, the coefficient of rolling friction is reduced, and the line distance measurement and the stability of sliding-pulling pouring are also ensured.

Advantageous effects

The invention relates to a normal-pressure rotary filling machine.A worker presses an electric control display panel to conduct current to a lead frame rod and a motor base box, so that a pillar round platform base conveyor belt at the rear side of a front baffle frame transports and stores bottle cans to form a disc positioning and placing, a material solution inserting conduit is used for forming storage operation to an outer frame ring shell and a short barrel cover groove in a linear distance angle adjusting disc groove, a filling pipe cap is inserted into an injection nozzle hole groove of a hole injection gradient frame, a jaw clamping groove rod of a side concave gradient groove is drawn by a nylon drawing pipe to be linked with an inner concave narrow groove, so that a gradient louver groove and a side arc bag wall block form fluid rotary air pressure pushing, the gradient hole-by-hole precise filling effect is realized, the balance weight adjusting effect of rotary deviation is formed between a cylindrical groove of a positive damping impact block and an arc support inner chamber in the operation of a square frame sliding track and a batten groove rod support frame of an inclined support sliding block rod, and the linear speed adjusting shaft wheel disc is matched with the whole angular speed drawing seat through a sliding drawing machine to be pushed and then The effect of data value correction is presented, make things convenient for the gel spacer block to press the damping laminated slab frame to form interior inertia off-load operation, realizes the effect that the line spacing passes through the slider adjustment, also promotes the accurate filling effect of three-dimensional coordinate system of ordinary pressure rotation type liquid filling machine.

The invention has the following advantages after operation:

the linear distance angle-adjusting disc groove is matched with the pillar circular truncated cone seat, a filling receiving pretreatment is formed by conveying bottles on the pillar circular truncated cone seat, then the short cylinder cover groove is rotated to drive the injection hole gradient rack to convey filling liquid hole by hole in a gradient manner, the angular speed of the outer frame ring shell is matched with the linear speed diagonal operation of the square frame sliding track and the inclined strut sliding block rod to form an interwoven coordinate net, so that the angle-adjusting disc and the sliding rack rod form a semi-ring type continuous supply gradient pushing injection effect, the stability of up-and-down alignment of bottle bodies one by one is guaranteed, a horizontal alignment fixed shaft effect is formed by the inner core of the injection tube and the axial port of the bottle body, the stable incorporation of the whole filling liquid column is facilitated, the whole gradient rack structure forms a progressive and fluctuating longitudinal depth adjustment, the operation of the overlapped pushing angle in three directions of the whole disc is guaranteed, and the precise correction effect of the three-dimensional coordinate point of the normal pressure rotation, the deviation rate of the filling is reduced.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a normal pressure rotary filling machine according to the present invention.

FIG. 2 is a detailed aerial view structure diagram of the linear distance angle modulation disk slot, the injection hole gradient frame, the inclined strut slide block rod and the sliding pull frame rod of the invention.

FIG. 3 is a schematic side sectional view of the side-recessing gradient tank of the present invention in working condition.

FIG. 4 is a schematic diagram of a side view of the damping sliding block according to the present invention.

Fig. 5 is a schematic side sectional view of the working state of the fan plate double rail block of the present invention.

Fig. 6 is a cross-sectional internal view structural diagram of the gear slide valve in the working state.

Description of reference numerals: an electric control display panel-1, a lead frame rod-2, a linear distance angle modulation disc groove-3, a filling pipe cap-4, a pillar round pedestal-5, a front baffle frame-6, a motor base box-7, an outer frame ring shell-3A, a hole injection gradient frame-3B, a short cylinder cover groove-3C, a square frame sliding track-3D, an inclined strut sliding block rod-3E, an angle modulation shaft wheel disc-3F, a sliding pull frame rod-3G, a sliding block seat-3H, a side concave gradient groove-3B 1, a nylon pull pipe-3B 2, an injection nozzle hole groove-3B 3, a jaw clamping groove rod-3B 11, a gradient louver groove-3B 12, a side arc bag wall block-3B 13, a concave narrow groove-3B 14, a damping sliding block-3E 1, a batten groove rod-3E 2, a button wheel-3E 3, a side arc bag wall block-3B 13, a side arc bag groove rod-3B 85, The device comprises a gel spacer block-3E 11, a cylindrical groove-3E 12, a damping laminated plate frame-3E 13, an arc support inner cavity-3E 14, a fan plate double-rail block-3G 1, a connecting rod-3G 2, a gear sliding valve-3G 3, a thin rail rod-3G 11, a honeycomb mesh groove-3G 12, a fan plate block-3G 13, a reed ball rod-3G 14, a cross gauge rod-3G 31, a spring tube dragging wheel-3G 32, an ear valve ball valve housing-3G 33 and a ratchet rod gear disc-3G 34.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-6, the present invention provides a normal pressure rotary filling machine, which comprises: the wire-distance angle-adjusting disc groove structure comprises an electric control display panel 1, a wire rack rod 2, a wire-distance angle-adjusting disc groove 3, a filling pipe cap 4, a pillar circular table seat 5, a front baffle plate frame 6 and a motor base box 7, wherein the wire-distance angle-adjusting disc groove 3 is installed at the upper left corner of the wire rack rod 2, the filling pipe cap 4 is provided with more than two parts and is inserted and embedded below the bottom around the circle center of the wire-distance angle-adjusting disc groove 3, the electric control display panel 1 is electrically connected with the wire rack rod 2, the wire rack rod 2 is inserted and embedded at the upper right corner of the motor base box 7 and is vertical to each other, the front baffle plate frame 6 is installed at the front side of the pillar circular table seat 5, the pillar circular table seat 5 is inserted and embedded below the bottom of the wire-distance angle-adjusting disc groove 3 and is collinear, the pillar circular table seat 5 is tightly attached to the top surface of the motor base box 7, the wire-distance angle-adjusting disc groove, The angle adjusting device comprises an inclined strut sliding block rod 3E, an angle adjusting shaft wheel disc 3F, a sliding puller rack rod 3G and a sliding block seat 3H, wherein the outer frame ring shell 3A and the short cylinder cover groove 3C are of an integral structure, the axes of the outer frame ring shell and the short cylinder cover groove are collinear, the square frame sliding track 3D and the inclined strut sliding block rod 3E are nested into a whole and are positioned on the same vertical surface, the square frame sliding track 3D is installed inside the short cylinder cover groove 3C, the injection hole gradient frame 3B is provided with four parts and fixed together around the circle center of the outer frame ring shell 3A, the inclined strut sliding block rod 3E is installed on the front side of the angle adjusting shaft wheel disc 3F, the angle adjusting shaft wheel disc 3F and the sliding puller rack rod 3G are mechanically connected and are positioned on the same vertical surface, the sliding block seat 3H and the square frame sliding track 3D are movably connected and are positioned on the same horizontal line, and the short cylinder.

Referring to fig. 2, the orifice gradient frame 3B is composed of a side concave gradient groove 3B1, a nylon pulling tube 3B2, and an injection nozzle hole groove 3B3, the side concave gradient groove 3B1 is movably connected with the nylon pulling tube 3B2 and is located on the same diagonal line, the nylon pulling tube 3B2 is buckled with the injection nozzle hole groove 3B3, the inclined strut slider rod 3E is composed of a damping sliding block 3E1, a slat groove rod 3E2, and a button wheel 3E3, the damping sliding block 3E1 is in clearance fit with the slat groove rod 3E2 and is located on the same diagonal line, the slat groove rod 3E2 is buckled with the button wheel 3E3, and the side concave gradient groove 3B1 and the damping sliding block 3E1 form gradient lifting of an annular side frame and line distance adjustment of cross coordinate positioning, so as to ensure that the alignment storage bottle is accurately filled.

Referring to fig. 3, the side concave gradient groove 3B1 is composed of a jaw groove clamping rod 3B11, a gradient louver groove 3B12, a side arc capsule wall block 3B13 and an inner concave narrow groove 3B14, the jaw groove clamping rod 3B11 is provided with two grooves which are respectively nested on the upper and lower sides of the gradient louver groove 3B12, the gradient louver groove 3B12 is installed inside the side arc capsule wall block 3B13 and is communicated with each other, the side arc capsule wall block 3B13 and the inner concave narrow groove 3B14 are in interference fit, the gradient louver groove 3B12 is a louver groove structure which is narrow in the upper and lower parts and is wide and is communicated with an integral tooth flap alternately, a gradient type diagonal injection hole is convenient to form a semi-ring closed circuit for filling, the normal pressure rotation stability of filling one by one is improved, the offset of the device is also improved, the gradient louver groove 3B12 is contracted and expanded in the side arc capsule wall block 3B13 to form a lifting longitudinal length of a lifting aperture pushing air flow, the valve is conveniently conducted to carry out hole-by-hole discharge operation.

Referring to fig. 4, the damping ram 3E1 is composed of a gel spacer block 3E11, a cylindrical groove 3E12, a damping stacked plate frame 3E13, and an arc support inner chamber 3E14, the gel spacer block 3E11 is inserted into the cylindrical groove 3E12 and is located on the same vertical plane, two cylindrical grooves 3E12 are provided and are respectively nested on the left and right sides of the arc support inner chamber 3E14, the damping stacked plate 3E13 is installed inside the arc support inner chamber 3E14 and is collinear with the axis, the gel spacer block 3E11 is a semi-elliptical limiting support plate structure pressed against a long vertical plate and provided with oblique ribs, so as to facilitate the left and right oblique crossing alignment of the inner top stacked plate to form a plate stamping damping motion effect of a spring structure, ensure that the linear velocity propulsion distance of the crossing coordinate system can adjust the counterweight, and the gel spacer block 3E11 forms a reduction of inertia force on the pressure damping stacked plate frame 3E13, the stability of counter weight in the guarantee makes things convenient for the adaptation line distance skew to carry out effective restoration correction operation effect.

The working process is as follows: a worker presses the electric control display panel 1 to conduct current to the wire rack rod 2 and the motor base box 7, so that a supporting column round pedestal 5 at the rear side of the front baffle rack 6 is used for conveying and containing bottle tanks to form a disc positioning and placing, then a material solution inserting guide pipe is used for forming storage operation for an outer frame ring shell 3A and a short barrel cover groove 3C in a linear distance angle modulation disc groove 3, a filling pipe cap 4 is inserted into an injection nozzle hole groove 3B3 of the injection hole gradient frame 3B, a nylon pull pipe 3B2 is used for pulling a jaw clamping groove rod 3B11 of the lateral concave gradient groove 3B1 to be linked with the inner concave narrow groove 3B14, the gradient louver groove 3B12 and the lateral arc bag wall block 3B13 form fluid rotary air pressure pushing, the gradient hole-by-hole accurate filling effect is achieved, a rotary arc chamber deviation between a cylindrical wheel 3E3 and a balance weight adjusting groove 3E12 of a damping slide block 3E1 and a rotary arc chamber 14 is guaranteed in the bracing slide block 3E 4 bracing slide bar 3E bracing frame operation, the angle-adjusting wheel disc 3F is also made to adapt to the whole angular speed traction linear velocity to be pushed and then feed back the data value correction effect through the sliding block seat 3H by the aid of the sliding frame rod 3G, so that the gel spacer block 3E11 can conveniently form internal inertia unloading operation on the pressure damping laminated plate frame 3E13, the effect that the linear distance is adjusted through the sliding block is achieved, and the three-dimensional coordinate system accurate filling effect of the normal-pressure rotary filling machine is improved.

Example two:

referring to fig. 1 to 6, the present invention provides a normal pressure rotary filling machine, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the hack lever 3G of the sliding machine is composed of a fan plate dual-rail block 3G1, a connecting rod 3G2, and a gear sliding valve 3G3, the fan plate dual-rail block 3G1 is mechanically connected with the gear sliding valve 3G3 through the connecting rod 3G2, the fan plate dual-rail block 3G1 and the gear sliding valve 3G3 are respectively installed at the upper and lower ends of the connecting rod 3G2 and are located on the same vertical plane, and when the fan plate dual-rail block 3G1 engages with the core disk on the side surface to guide the connecting rod 3G2 to move along the wheel corner speed, a linear speed of a traverse rod is formed, and the linkage blending effect of the linear speed and the angular speed is ensured.

Referring to fig. 5, the fan plate double rail block 3G1 is composed of a thin rail rod 3G11, a honeycomb grid groove 3G12, a fan plate block 3G13, a wire ball rod 3G14, the two honeycomb grid grooves 3G12 are respectively arranged at the upper and lower sides of the inner part of the fan plate block 3G13, the thin rail rod 3G11 is welded with the fan plate 3G13 into a whole and is positioned on the same cambered surface, the spring wire ball rod 3G14 is inserted and embedded in the sector block 3G13, the spring wire ball rod 3G14 is of a thick bent rod structure with a crescent arc plate in a ball to press and cover a spring wire, so that the quartering opposite supporting angle adjusting operation of the track disc sliding brush is facilitated, the stable protection degree of the whole axis anti-run-off deviation is improved, after the side spring wire ball rod 3G14 is pulled through the honeycomb grid groove 3G12, a sixty-degree spread angle continuous sliding effect is formed, the ratchet type intermittent transmission is formed by the whole rotation, and the sufficient reservation of filling time is guaranteed.

Referring to fig. 6, the gear slide valve 3G3 is composed of a cross gauge rod 3G31, a spring tube traction wheel 3G32, an ear piece ball valve housing 3G33, and a ratchet rod gear disk 3G34, the cross gauge rod 3G31 is inserted and embedded inside the ear piece ball valve housing 3G33, the spring tube traction wheel 3G32 and the ratchet rod gear disk 3G34 are respectively installed at the upper left corner and the lower right corner of the cross gauge rod 3G31 and are located on the same vertical plane, the cross gauge rod 3G31 is a bar structure with left and right rubber bars overlapping, thick and thin and narrow middle, so that the measurement of the angular velocity of the inner wheel of the narrow rod is facilitated, the linear velocity of the integral hoisting wheel housing is adjusted, the ear piece ball 3G33 is a housing structure with left and right elliptic convex arc tops, the horizontal sliding of the left and right convex arcs is facilitated, the coefficient of friction of the rolling friction and the stability of the slide ball valve are also ensured, the elastic tube traction wheel 3G32 is slidingly pulled through the distance measuring rod 3G31 for wheel guiding and meshing, the supply of the linear speed is guaranteed, the driven sliding brush is used, the angular speed rotation adjustment of the wheel distance of the sliding block is synchronized, and the accuracy of the coordinate data value is conveniently fed back and corrected.

After the filling operation of the integral wheel disc groove, the fan plate double-rail block 3G1 of the rack bar 3G of the sliding and pulling machine is matched with the dragging connecting rod 3G2 to link the gear sliding and pulling valve 3G3 to rotate and move along the angular distance, so that the honeycomb mesh groove 3G12 in which the thin rail rod 3G11 and the reed ball rod 3G14 are spliced is ensured to form a double-arc-rail correction clockwise rotation control angle convolution effect in the fan plate block 3G13 to guide the rod transverse movement pushing transverse gauge rod 3G31 and the ear ball valve shell 3G33 to move, the elastic tube dragging wheel 3G32 and the ratchet rod gear disc 3G34 slide left and right along the transverse gauge rod 3G31 to form a linear distance feedback data guide gear angle modulation feedback effect, and the framework stability of the integral coordinate precision is improved.

The invention achieves the aim of matching the linear distance angle-adjusting disc groove 3 with the pillar circular seat 5 by mutually combining the components, forms a filling receiving pretreatment by conveying bottles on the pillar circular seat 5, then rotates the short cylinder cover groove 3C to drive the injection hole gradient frame 3B to convey filling liquid hole by hole in a gradient way, ensures that the angular speed of the outer frame ring shell 3A matches the linear speed diagonal operation of the square frame sliding track 3D and the inclined strut sliding block rod 3E to form an interlaced coordinate network, facilitates the angle-adjusting wheel disc 3F and the sliding and pulling machine frame rod 3G to form a ring type semicontinuous supply gradient pushing injection effect, ensures the stability of up-and-down alignment of bottle bodies one by one, also forms a horizontal alignment fixed axis effect between the injection tube inner core and the bottle body axis mouth, facilitates the stable incorporation of the whole filling liquid column, and enables the whole gradient frame structure to form a gradual and fluctuating longitudinal depth adjustment, the three-dimensional coordinate point accurate correction effect of normal pressure rotation type is improved, and the deviation rate of filling is reduced, so that the problem that the common filling machine positions and loads materials by using a rotary one-by-one injection cap pipe which is used for filling operation by matching capacity with air cylinder pressure is solved, but rotary angular velocity and gradient linear velocity of longitudinal feeding are interwoven to cause a vertical pushing cross interference offset phenomenon, so that the linear velocity end of angular velocity positioning sensing is provided with a sensor, the cost of an electronic detection limiting part is consumed, the sensors are erected in batches, and load is generated for the whole hanger body, so that the air pump pressure recoil load of a filling hanger plate is increased, the rotary angular velocity precision and the linear distance material liquid quantity supply are slow, and the continuous action of offset filling is caused.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (8)

1. A normal pressure rotary filling machine structurally comprises: automatically controlled display panel (1), wire hack lever (2), line are apart from angle modulation dish groove (3), filling pipe cap (4), pillar round platform seat (5), preceding baffle frame (6), motor base case (7), its characterized in that:

the wire-distance angle-adjusting disc groove (3) is arranged at the upper left corner of the wire frame rod (2), the filling pipe cap (4) is provided with more than two wires and is inserted and embedded under the bottom around the circle center of the wire-distance angle-adjusting disc groove (3), the electronic control display panel (1) is electrically connected with the wire frame rod (2), the wire frame rod (2) is inserted and embedded at the upper right corner of the motor base box (7), the front baffle frame (6) is arranged at the front side of the pillar circular base (5), the pillar circular base (5) is inserted and embedded under the bottom of the wire-distance angle-adjusting disc groove (3), and the pillar circular base (5) is tightly attached to the top surface of the motor base box (7);

the line-distance angle-adjusting disc groove (3) is provided with an outer frame ring shell (3A), a pouring hole gradient frame (3B), a short cylinder cover groove (3C), a square frame sliding track (3D), an inclined strut sliding block rod (3E), an angle-adjusting shaft disc (3F), a sliding drawing machine frame rod (3G) and a sliding block seat (3H);

the outer frame ring shell (3A) and the short barrel cover groove (3C) are of an integral structure, the frame sliding rails (3D) and the inclined strut sliding block rods (3E) are nested into a whole, the frame sliding rails (3D) are installed inside the short barrel cover groove (3C), the injection hole gradient frame (3B) is provided with four parts and fixed together around the circle center of the outer frame ring shell (3A), the inclined strut sliding block rods (3E) are installed on the front side of the angle adjusting shaft wheel disc (3F), the angle adjusting shaft wheel disc (3F) is mechanically connected with the sliding stretcher frame rod (3G), the sliding block seat (3H) is movably connected with the frame sliding rails (3D), and the short barrel cover groove (3C) is installed at the upper left corner of the guide wire frame rod (2).

2. An atmospheric rotary filling machine as defined in claim 1 wherein: the injection hole gradient frame (3B) is composed of a side concave gradient groove (3B1), a nylon pull tube (3B2) and an injection nozzle hole groove (3B3), the side concave gradient groove (3B1) is movably connected with the nylon pull tube (3B2), and the nylon pull tube (3B2) is buckled with the injection nozzle hole groove (3B 3).

3. A normal pressure rotary filling machine as defined in claim 2 wherein: the side concave gradient groove (3B1) is composed of a jaw groove clamping rod (3B11), a gradient louver groove (3B12), a side arc capsule wall block (3B13) and an inner concave narrow groove (3B14), the jaw groove clamping rod (3B11) is provided with two and is respectively nested on the upper side and the lower side of the gradient louver groove (3B12), the gradient louver groove (3B12) is installed in the side arc capsule wall block (3B13), and the side arc capsule wall block (3B13) is matched with the inner concave narrow groove (3B 14).

4. An atmospheric rotary filling machine as defined in claim 1 wherein: bracing slider pole (3E) comprise damping cunning collision piece (3E1), slat groove pole (3E2), button wheel (3E3), damping cunning collision piece (3E1) cooperatees with slat groove pole (3E2), slat groove pole (3E2) are in the same place with button wheel (3E3) lock.

5. An atmospheric rotary filling machine as defined in claim 4 wherein: damping ram block (3E1) is separated cushion block (3E11), cylinder groove (3E12), damping superimposed slab frame (3E13), arc by the gel and props interior chamber (3E14) and constitute, the inside of inlaying in cylinder groove (3E12) is inserted to gel separate cushion block (3E11), cylinder groove (3E12) are equipped with two and nest respectively in the left and right sides that the arc propped interior chamber (3E14), damping superimposed slab frame (3E13) is installed in the inside that the arc propped interior chamber (3E 14).

6. An atmospheric rotary filling machine as defined in claim 1 wherein: the sliding pulling machine frame rod (3G) is composed of a fan plate double-rail block (3G1), a connecting rod (3G2) and a gear sliding pulling valve (3G3), the fan plate double-rail block (3G1) is mechanically connected with the gear sliding pulling valve (3G3) through the connecting rod (3G2), and the fan plate double-rail block (3G1) and the gear sliding pulling valve (3G3) are respectively installed at the upper end and the lower end of the connecting rod (3G 2).

7. An atmospheric rotary filling machine as defined in claim 6 wherein: fan board double track piece (3G1) comprises thin rail pole (3G11), bee check net groove (3G12), fan plate piece (3G13), spring wire ball pole (3G14), bee check net groove (3G12) are equipped with two and install respectively in the inside upper and lower both sides of fan plate piece (3G13), thin rail pole (3G11) and fan plate piece (3G13) weld into an organic whole, spring wire ball pole (3G14) are inserted and are inlayed in the inside of fan plate piece (3G 13).

8. An atmospheric rotary filling machine as defined in claim 6 wherein: the gear slide valve (3G3) is composed of a cross gauge rod (3G31), an elastic tube traction wheel (3G32), an ear valve ball valve casing (3G33) and a ratchet rod gear disc (3G34), wherein the cross gauge rod (3G31) is inserted and embedded in the ear valve ball valve casing (3G33), and the elastic tube traction wheel (3G32) and the ratchet rod gear disc (3G34) are respectively arranged at the upper left corner and the lower right corner of the cross gauge rod (3G 31).

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