CN115570380B - Pump head assembling device of pressing pump - Google Patents

Abstract

The invention relates to the technical field of production of pressing pumps, in particular to a pump head assembling device of a pressing pump, which comprises a rotary disc part, a bottom control frame, a pump core channel, a glass bead channel and a spring channel, wherein the bottom control frame is supported below the rotary disc part, the pump core channel is butted on one side of the rotary disc part, the glass bead channel is butted on the rotary disc part on one side of the pump core channel, the spring channel is butted on the rotary disc part on one side of the glass bead channel, the glass bead channel and the spring channel are distributed above the edge of the rotary disc part, the rotary disc part comprises a top disc, a top ring plate, a brake disc and a limiting arc column, when a pump core is clamped, staggered rotation between a first shaft and a second shaft is caused, an elastic clamping part is clamped into the next hemispherical groove again, a spring is tightened, the spring and the elastic clamping part are matched to provide larger pressure for the first shaft, so that the brake disc rotates to break the clamping position of the pump core, and if the clamping position of the pump core cannot be broken, an outer control part is automatically triggered to work, so that the space of a discharge port is released, and the clamping position problem of the pump core is solved.

Description

Pump head assembling device of pressing pump

Technical Field

The invention relates to the technical field of pressing pump production, in particular to a pump head assembling device of a pressing pump.

Background

Referring to the existing patent document with publication number CN215942069U, the present invention provides an assembling device for a pressing pump head, which comprises a pump core feeding tray, a glass bead feeding tray, and a spring feeding tray, wherein the pump core feeding tray, the glass bead feeding tray, and the spring feeding tray are sequentially arranged around an assembly turntable, the assembly turntable drives the pump core to sequentially complete the assembly of glass beads and springs in a limit ring, and then the glass beads and the springs are discharged from the other end of the gap of the limit ring, however, when the pump core enters the assembly turntable, the hidden trouble that the pump core is clamped at the interface between the turntable and a pump core feeding channel exists, for the problem of clamping, pressure can be applied to the turntable, the clamping state of the pump core is broken, and under the condition that the clamping state cannot be broken by applying pressure, the pump core may be directly destroyed along with the increase of external force, so the external force applied to the pump head cannot be greater than the bearing force of the pump core, but the pump core is completely clamped, the problem can be solved by releasing the space of a discharge port of the pump core, and based on the idea, the present invention provides an assembling device capable of assisting in pressurizing and releasing the discharge port.

Disclosure of Invention

The present invention is directed to a pump head assembling apparatus for a pressing pump, which solves the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a press pump head assembly device, includes carousel spare, end accuse frame, pump core passageway, glass bead passageway and spring channel, the below of carousel spare supports end accuse frame, and one side of carousel spare is docked there is the pump core passageway, docks there is the glass bead passageway on the carousel spare of pump core passageway one side, and it has the spring channel to dock on the carousel spare of glass bead passageway one side, and glass bead passageway and spring channel distribute in the edge top of carousel spare, the carousel spare includes top dish, top ring board, brake disc and spacing arc post, top dish edge below ring is equipped with the top ring board, and top ring board below is provided with the brake disc, and the outside cover of brake disc has spacing arc post, and the bottom surface edge ring is equipped with a plurality of evenly distributed's chute, and top ring edge position ring is equipped with a plurality of evenly distributed's blanking hole, and the lateral wall of brake disc is fitted with a contraceptive ring and is equipped with a plurality of evenly distributed's product and is detained the arc groove, end accuse frame includes support body, support body and spacing arc post, the middle part is provided with the middle part, and the middle shaft center core spare is connected with the delivery core control piece, and the one side of the pump core passageway, and the delivery control piece, and the outer control piece are connected with the outer control piece, and the outer control piece of pump core plate body, and the delivery pump core plate body, and the outer control piece.

Preferably, the frame body comprises a concave folding plate, transverse control plates and foot vertical plates, the two transverse control plates are distributed in parallel, a middle shaft member penetrates through the middle of each transverse control plate, the foot vertical plates are fixed at two ends of each transverse control plate, the concave folding plate is fixed at the tops of the foot vertical plates, one end of the concave folding plate is fixed at the edge of the lower bottom surface of the top ring plate, and the other end of the concave folding plate is fixed at the edge of the lower bottom surface of the limiting arc column.

Preferably, the external control part comprises a screw part, an external rod, an L-shaped position plate and a brake seat, the screw part is provided with a butt joint part of the pump core channel and the turntable part, one side of the middle shaft part is in transmission connection with the brake seat, the external rod is in transmission connection between the brake seat and the screw part, the external rod and the brake seat are both fixed on the L-shaped position plate, and one end of the L-shaped position plate is fixed on the transverse control plate.

Preferably, the brake seat comprises a blocking block, a push block, a first spring, an inner spring rod, a concave rack, a first gear, a Z-shaped plate assembly and a steering block, the concave rack is fixed on one side of the Z-shaped plate assembly, the concave rack is in transmission connection with the first gear, the inner spring rod is distributed on one side of the concave rack in parallel, the first spring is sleeved on the inner spring rod, one end of the first spring is in contact with the push block, the push block is fixed on the Z-shaped plate assembly, the inner spring rod movably penetrates through a through hole formed in the push block, the blocking block is arranged on one side, opposite to the first spring, of the push block, the blocking block is fixed on the inner spring rod, the steering block is in contact with the other end of the first spring, the steering block is fixed on one side of the L-shaped position plate, one end of the Z-shaped plate assembly movably penetrates through an L-shaped plate hole formed in the steering block, and the middle shaft piece controls the Z-shaped plate assembly in a transmission mode.

Preferably, the screw piece comprises a resistance plate, a Z-shaped movable plate, a bolt, a Z-shaped static plate, a second gear and a disc gear, the resistance plate comprises a vertical plate and a plurality of uniformly distributed transverse support plates integrally connected with one side of the vertical plate, after the pump core enters a product retention arc groove on a brake disc, the brake disc rotates to drive the pump core, the resistance plate intercepts and guides the pump core to enter a gap between the brake disc and a limiting arc column, the transverse support plates on the resistance plate are arranged in square grooves formed in a side shell of a pump core channel, one end of the Z-shaped movable plate is fixed on the resistance plate, the other end of the Z-shaped movable plate is provided with the bolt, a threaded column part of the bolt penetrates through a threaded hole formed in the Z-shaped movable plate, a polished rod part of the bolt is movably sleeved in a through hole formed in one end of the Z-shaped static plate, the Z-shaped static plate is parallelly distributed on one side of the Z-shaped movable plate, the other end of the Z-shaped side shell is fixed on the pump core channel, one end of the bolt is fixed with the disc gear, one side of the disc gear is engaged with the second gear, the second gear is fixed at one end of the outer rod, and the first gear is fixed at the other end of the outer rod.

Preferably, the middle shaft part comprises a top component, a first shaft, a concave plate component, an elastic clamping component, a clockwork spring component and a second shaft, the bottom end of the first shaft is provided with the second shaft, the first shaft is movably sleeved in a through hole formed in the middle of one transverse control plate, the second shaft is movably sleeved in a through hole formed in the middle of the other transverse control plate, the middle parts of a brake disc and the top disc are respectively penetrated through the top of the first shaft, one side of the top of the second shaft is connected with the elastic clamping component, one end of the elastic clamping component protrudes into a hemispherical groove formed in one side of the bottom of the second shaft, a plurality of uniformly distributed hemispherical grooves are formed in one side of the bottom of the first shaft, a plurality of convex teeth which are distributed in arc positions are fixed on the other side of the first shaft, the convex teeth are located on one side of the top of the concave plate component, the bottom of the concave plate component is fixed on the second shaft, the clockwork spring component is arranged below the elastic clamping component, the clockwork spring component is connected between the first shaft and the second shaft, the elastic clamping component are located on one side of the middle of the concave plate component, the top of the first shaft, the top component and the top component in a transmission connection mode.

Preferably, the concave plate component comprises a supporting gear, a supporting shaft and a concave folding side plate, the bottom end of the concave folding side plate is fixed on the second shaft, two through holes are formed in a shell at the top end of the concave folding side plate, the supporting shaft is movably sleeved in each through hole, a supporting gear is fixed at the top end of the supporting shaft, the top component comprises a semi-ring column, an outer arc groove rail body and a control body, the control body comprises an inner gear ring and a long plate integrally connected with one side outside of the inner gear ring, the semi-ring column is fixed at the top end of the concave folding side plate, two ends of the semi-ring column are respectively fixed with an outer arc groove rail body, the two outer arc groove rail bodies are symmetrically distributed around the first shaft, the two outer arc groove rail bodies are matched with the inner gear ring of the inner support control body, the two supporting gears are in meshed connection, one of the supporting gears is in transmission connection with the top component, the other supporting gear can be meshed with a convex tooth on the first shaft in butt joint when moving around the first shaft, and further triggers the long plate of the control body to swing to control the Z-shaped plate component.

Preferably, elasticity screens piece includes screens post, pressure spring and V type position board, the screens post includes the hemisphere piece of short column and short column one end body coupling, and the hemisphere piece of screens post is protruded to the hemisphere groove in, and the cover has the pressure spring on the short column of screens post, and the pressure spring supports between hemisphere piece and V type position board, and the one end of V type position board is fixed on the secondary shaft, and the through-hole that the V type position board other end was seted up is run through in the activity of screens post short column, the clockwork spring part includes L type subplate, straight subplate and clockwork spring, the clockwork spring cover is outside the secondary shaft, and clockwork spring's the innermost is fixed with straight subplate, and straight subplate is fixed on the secondary shaft, and the outermost end L type subplate of clockwork spring, the top of L type subplate are fixed on the primary shaft.

Preferably, the Z-shaped plate assembly comprises an intercepting inner column, a braking inner column and a Z-shaped transverse plate, the intercepting inner column and the braking inner column are fixed at the bottom of the Z-shaped transverse plate, and one end of a long plate of the control body protrudes between the intercepting inner column and the braking inner column.

Compared with the prior art, the invention has the beneficial effects that:

1. when the pump core is clamped, the dislocation rotation between the first shaft and the second shaft is caused, the elastic clamping piece is clamped into the next hemispherical groove again, the clockwork spring is tightened, the clockwork spring and the elastic clamping piece are matched to provide larger pressure for the first shaft, the brake disc is enabled to rotate to break the clamping position of the pump core, if the clamping position cannot be broken through, the external control piece is automatically triggered to work, the space release of the discharge port is realized, and the clamping problem of the pump core is solved.

2. According to the invention, automatic transmission is realized through the cooperation of the middle shaft element and the outer control element, so that a brake disc is subjected to increased rotary pressure, the rotary pressure cannot be greater than the pressure resistance of the pump core, the clamping problem cannot be solved, and the outer control element can be automatically triggered to work, so that a resistance plate for laterally intercepting the pump core moves away from the brake disc, and the original path capable of passing through one pump core is widened.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic structural view of the bottom control frame.

Fig. 3 is a schematic view of a frame structure.

Fig. 4 is a schematic structural view of the external control element.

Fig. 5 is a schematic structural view of the brake seat.

Fig. 6 is a schematic structural view of the middle shaft element.

Fig. 7 is a schematic structural diagram of a clockwork spring.

Fig. 8 is a schematic view of the top assembly.

Fig. 9 is a schematic structural view of a Z-type plate assembly.

FIG. 10 is a schematic view of the position of the baffle.

In the figure: the hydraulic brake device comprises a rotary disc member 1, a bottom control frame 2, a pump core channel 3, a glass bead channel 4, a spring channel 5, a top disc 6, a top ring plate 7, a brake disc 8, a limit arc column 9, a frame body 10, a middle shaft member 11, an outer control member 12, a concave folding plate 13, a transverse control plate 14, a foot vertical plate 15, a screw member 16, an outer rod 17, an L-shaped position plate 18, a brake seat 19, an intercepting block 20, a pushing block 21, a first spring 22, an inner spring rod 23, a concave rack 24, a first gear 25, a Z-shaped plate assembly 26, a control block 27, a resisting plate 28, a Z-shaped movable plate 29, a bolt 30, a Z-shaped static plate 31, a second gear 32, a disc gear 33, a top assembly 34, a first shaft 35, a concave plate assembly 36, an elastic clamping member 37, a spring member 38, a second shaft 39, a supporting gear 40, a supporting shaft 41, a concave folding side plate 42, a clamping column 43, a compression spring 44, a V-shaped auxiliary plate 45, an L-shaped auxiliary plate 46, a straight plate 47, an intercepting spring 48, a semi-ring column 49, an outer semi-ring column 50, an outer semi-ring column groove 50, an inner control rail 50, a semi-ball groove column inner control plate 52, a pump core column 52, a semi-shaped inner control plate 53 and a half-shaped brake groove 52.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art without creative efforts based on the technical solutions of the present invention belong to the protection scope of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a press pump head assembly device, including carousel spare 1, end accuse frame 2, pump core passageway 3, glass bead passageway 4 and spring channel 5, carousel spare 1's below supports end accuse frame 2, one side of carousel spare 1 is docked has pump core passageway 3, dock on the carousel spare 1 of pump core passageway 3 one side has glass bead passageway 4, dock on the carousel spare 1 of glass bead passageway 4 one side has spring channel 5, and glass bead passageway 4 and spring channel 5 distribute in the edge top of carousel spare 1, carousel spare 1 includes top dish 6, top crown plate 7, brake disc 8 and spacing arc column 9, top 6 edge below ring is equipped with top crown plate 7, top crown plate 7 below is provided with brake disc 8, 8 outside cover of brake disc has spacing arc column 9, top crown 6 upper surface edge ring is equipped with a plurality of evenly distributed's chute, top crown plate 7 edge position ring is equipped with a plurality of evenly distributed's unloading hole, the upper ring of brake disc 8 is equipped with a plurality of evenly distributed product detention arc grooves, brake disc 8 outer cover has spacing arc column 9, the bottom crown plate edge ring is equipped with a plurality of evenly distributed chute, the middle shaft outer side wall of center shaft control frame 2, it is connected with the middle part of center shaft control ring 12 and the middle part of pump core control piece, the middle part 11 outer side is connected with the pump core support body of pump core support body 11, the middle part 11 is connected with the pump core support body 11, the middle part 11 and the pump core support body 11, the middle part 11, the pump core support body 11, the pump core support piece 11 outer side is connected with the center shaft support body 11, the pump core piece 11, the middle part of the pump core support body 11 outer side is provided with the pump core support body, the pump core support piece, the center shaft support piece 11 outer side of the pump core support piece, the pump core piece 11 outer side of the center shaft support piece, the pump core support body 11.

The support body 10 comprises a concave folding plate 13, transverse control plates 14 and foot vertical plates 15, the two transverse control plates 14 are distributed in parallel, a middle shaft element 11 penetrates through the middle of the transverse control plate 14, the foot vertical plates 15 are fixed at two ends of the transverse control plate 14, the concave folding plate 13 is fixed at the top of the foot vertical plate 15, one end of the concave folding plate 13 is fixed at the edge of the lower bottom surface of the top ring plate 7, and the other end of the concave folding plate 13 is fixed at the edge of the lower bottom surface of the limiting arc column 9.

The outer control part 12 comprises a screw part 16, an outer rod 17, an L-shaped position plate 18 and a brake seat 19, the screw part 16 is arranged at the butt joint of the pump core channel 3 and the turntable part 1, one side of the middle shaft part 11 is in transmission connection with the brake seat 19, the outer rod 17 is in transmission connection between the brake seat 19 and the screw part 16, the outer rod 17 and the brake seat 19 are both fixed on the L-shaped position plate 18, and one end of the L-shaped position plate 18 is fixed on the transverse control plate 14.

The brake seat 19 comprises an interception block 20, a push block 21, a first spring 22, an inner spring rod 23, a concave rack 24, a first gear 25, a Z-shaped plate assembly 26 and a direction control block 27, wherein the concave rack 24 is fixed on one side of the Z-shaped plate assembly 26, the first gear 25 is connected to the concave rack 24 in a transmission mode, the inner spring rod 23 is distributed on one side of the concave rack 24 in parallel, the first spring 22 is sleeved on the inner spring rod 23, one end of the first spring 22 is in contact with the push block 21, the push block 21 is fixed on the Z-shaped plate assembly 26, the inner spring rod 23 movably penetrates through a through hole formed in the push block 21, the interception block 20 is arranged on one side, opposite to the first spring 22, of the push block 21, the interception block 20 is fixed on the inner spring rod 23, the other end of the first spring 22 is in contact with the direction control block 27, the direction control block 27 is fixed on one side of the L-shaped position plate 18, one end of the Z-shaped assembly 26 movably penetrates through an L-shaped plate hole formed in the direction control block 27, and the middle shaft member 11 controls the Z-shaped assembly 26 in a transmission mode.

The screw piece 16 comprises a resistance plate 28, a Z-shaped movable plate 29, a bolt 30, a Z-shaped static plate 31, a second gear 32 and a disc gear 33, wherein the resistance plate 28 comprises a vertical plate and a plurality of uniformly distributed transverse support plates integrally connected with one side of the vertical plate, after a pump core 56 enters a product retention arc groove on a brake disc 8, the brake disc 8 rotates to drive the pump core 56, the resistance plate 28 intercepts and guides the pump core 56 to enter a gap between the brake disc 8 and a limiting arc column 9, the transverse support plates on the resistance plate 28 are arranged in square grooves formed in a side shell of a pump core channel 3, one end of the Z-shaped movable plate 29 is fixed on the resistance plate 28, the other end of the Z-shaped movable plate 29 is provided with the bolt 30, a threaded column part of the bolt 30 penetrates through a threaded hole formed in the Z-shaped movable plate 29, a polished rod part of the bolt 30 is movably sleeved in a through hole formed in one end of the Z-shaped static plate 31, the Z-shaped static plate 31 is distributed on one side of the Z-shaped movable plate 29 in parallel, the other end of the Z-shaped static plate 31 is fixed on the side of the pump core channel 3, the side of the bolt 30 is fixed with the disc gear 33, one side of the second gear 32, and one end of the first gear 17 is connected with an outer rod 17 fixed on the first gear 17.

Referring to fig. 5 and 10, it can be understood that the Z-shaped plate assembly 26 moves to drive the concave rack 24, and then control the first gear 25 to rotate, the second gear 32 is driven by the outer rod 17, the second gear 32 drives the disc gear 33, the disc gear 33 drives the bolt 30, the Z-shaped static plate 31 limits the bolt 30, the bolt 30 rotates in situ to cause the Z-shaped movable plate 29 to move axially along the bolt 30, and then control the resistance plate 28 to move, the resistance plate 28 moves towards the side shell of the pump core channel 3, if the pump core 56 is clamped between the resistance plate 28 and the brake disc 8, and moves away from the brake disc 8 through the resistance plate 28, so that the brake disc 8 rotates smoothly to drive the pump core 56 to move, and the problem of clamping of the pump core 56 is solved.

The middle shaft element 11 comprises a top assembly 34, a first shaft 35, a concave plate assembly 36, an elastic clamping element 37, a clockwork spring 38 and a second shaft 39, the bottom end of the first shaft 35 is provided with the second shaft 39, the first shaft 35 is movably sleeved in a through hole formed in the middle of one transverse control plate 14, the second shaft 39 is movably sleeved in a through hole formed in the middle of the other transverse control plate 14, the top of the first shaft 35 penetrates through the middle of the brake disc 8 and the top disc 6 respectively, one side of the top of the second shaft 39 is connected with the elastic clamping element 37, one end of the elastic clamping element 37 protrudes into a hemispherical groove 55 formed in one side of the bottom of the first shaft 35, one side of the bottom of the first shaft 35 is provided with a plurality of uniformly distributed hemispherical grooves 55, the other side of the first shaft 35 is fixed with a plurality of convex teeth which are distributed in the arc positions, the convex teeth are positioned on one side of the top of the concave plate assembly 36, the bottom of the concave plate assembly 36 is fixed on the second shaft 39, the clockwork spring 38 is arranged below the elastic clamping element 37, the clockwork spring 38 is connected between the first shaft 35 and the second shaft 35, the concave plate assembly 34 is connected with the top plate assembly 34 and the top plate assembly 34, and the top plate assembly 34.

The concave plate component 36 comprises a supporting gear 40, a supporting shaft 41 and a concave folding side plate 42, the bottom end of the concave folding side plate 42 is fixed on the second shaft 39, two through holes are formed in a shell at the top end of the concave folding side plate 42, the supporting shaft 41 is movably sleeved in each through hole, the supporting gear 40 is fixed at the top end of the supporting shaft 41, the top component 34 comprises a semi-ring column 49, outer arc groove rail bodies 50 and a control body 51, the control body 51 comprises a long plate formed by integrally connecting an inner gear ring and one side of the outer portion of the inner gear ring, the semi-ring column 49 is fixed at the top end of the concave folding side plate 42, the outer arc groove rail bodies 50 are fixed at two ends of the semi-ring column 49, the two outer arc groove rail bodies 50 are symmetrically distributed around the first shaft 35, the two outer arc groove rail bodies 50 are matched with the inner gear ring of the inner supporting control body 51, the two supporting gears 40 are connected in an engaged mode, one supporting gear 40 is in transmission connection with the top component 34, the other supporting gear 40 is in a butt joint with the convex teeth on the first shaft 35 when the other supporting gear 40 moves around the first shaft 35, the long plate is triggered to swing, and the control body 51 controls the Z component 26 to swing.

The elastic force clamping piece 37 comprises a clamping column 43, a pressure spring 44 and a V-shaped positioning plate 45, the clamping column 43 comprises a short column and a semi-spherical block integrally connected with one end of the short column, the semi-spherical block of the clamping column 43 protrudes into a semi-spherical groove 55, the short column of the clamping column 43 is sleeved with the pressure spring 44, the pressure spring 44 is supported between the semi-spherical block and the V-shaped positioning plate 45, one end of the V-shaped positioning plate 45 is fixed on the second shaft 39, the short column of the clamping column 43 movably penetrates through a through hole formed in the other end of the V-shaped positioning plate 45, the clockwork spring piece 38 comprises an L-shaped auxiliary plate 46, a straight auxiliary plate 47 and a clockwork spring 48, the clockwork spring 48 is sleeved outside the second shaft 39, the straight auxiliary plate 47 is fixed to the innermost end of the clockwork spring 48, the straight auxiliary plate 47 is fixed on the second shaft 39, the L-shaped auxiliary plate 46 at the outermost end of the clockwork spring 48 and the top end of the L-shaped auxiliary plate 46 are fixed to the first shaft 35.

The Z-shaped plate assembly 26 comprises an intercepting inner column 52, a braking inner column 53 and a Z-shaped cross plate 54, wherein the intercepting inner column 52 and the braking inner column 53 are fixed at the bottom of the Z-shaped cross plate 54, and one end of a long plate of the control body 51 protrudes between the intercepting inner column 52 and the braking inner column 53.

Referring to fig. 6, 7 and 8, it can be understood that the bottom end of the second shaft 39 is externally connected to a motor driving mechanism in the prior art, the second shaft 39 rotates counterclockwise to drive the clockwork spring 38, and further control the first shaft 35 to rotate, when the pump core 56 is locked, the first shaft 35 cannot rotate, first, the elastic locking member 37 is triggered to elastically lock, that is, after the hemisphere block of the locking column 43 is drawn out from one hemisphere groove 55, the first shaft 35 continues to rotate relative to the second shaft 39, the hemisphere block is locked into the next hemisphere groove 55 again, and the clockwork spring 48 is tightened in the process, so that at the second locking point, the elastic locking member 37 and the clockwork spring 48 exert pressure together, so that the pump core 56 breaks through the locking position and moves along with the brake disk 8, if the locking is still, the elastic locking member 37 continues to be locked into the next hemisphere groove 55, and the force of the pump core 56 breaking through the locking position is enhanced, that is, after the pump core 56 is clamped at the position where the rotary disk member 1 and the pump core channel 3 are abutted, the pump core 56 is gradually subjected to the enhanced supporting force on the brake disk 8, so that the pump core 56 breaks through the clamping position, if the pump core is still not operated, the release port mechanism is automatically triggered, the rotation control of the top assembly 34 is triggered, referring to fig. 9, when the second shaft 39 and the first shaft 35 rotate normally and synchronously, the long plate of the control body 51 is intercepted reversely by the intercepting inner column 52, the rotation of the first shaft 35 does not affect the control body 51, because the synchronous motion is maintained between the supporting gear 40 and the first shaft 35, a gap is formed between the supporting gear 40 and the first shaft 35, which do not affect each other, and once the supporting gear 40 is abutted against the convex teeth on the first shaft 35, the first shaft 35 and the second shaft 39 rotate asynchronously, that is, when the concave folding plate 13 is firmly clamped, the resisting plate 28 needs to be released, the moving path port of the pump core 56 is enlarged, the supporting gear 40 drives the control body 51, the long plate of the control body 51 swings to drive the brake inner column 53, so as to control the Z-shaped transverse plate 54 to move towards the direction control block 27, thus realizing the deformation control of the brake seat 19, and controlling the screw piece 16 through the outer rod 17 to move the baffle 28.

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

Claims (2)

1. The utility model provides a press pump head assembly device, includes carousel spare (1), end accuse frame (2), pump core passageway (3), glass pearl passageway (4) and spring passageway (5), the below of carousel spare (1) supports end accuse frame (2), and one side of carousel spare (1) is to having pump core passageway (3), and the carousel spare (1) of pump core passageway (3) one side is to having glass pearl passageway (4), and the carousel spare (1) of glass pearl passageway (4) one side is to having spring passageway (5), and glass pearl passageway (4) and spring passageway (5) distribute in the marginal top of carousel spare (1), its characterized in that: the rotary disc part (1) comprises a top disc (6), a top ring plate (7), a brake disc (8) and a limiting arc column (9), wherein the top ring plate (7) is annularly arranged below the edge of the top disc (6), the brake disc (8) is arranged below the top ring plate (7), the limiting arc column (9) is sleeved outside the brake disc (8), a plurality of uniformly distributed chutes are annularly arranged on the edge of the upper bottom surface of the top disc (6), a plurality of uniformly distributed blanking holes are annularly arranged at the edge of the top ring plate (7), a plurality of uniformly distributed product retention arc grooves are annularly arranged on the outer side wall of the brake disc (8), the bottom control frame (2) comprises a frame body (10), a middle shaft part (11) and an outer control part (12), the top of the middle shaft part (11) penetrates through the top disc (6) and the brake disc (8), one side of the middle shaft part (11) is connected with the outer transmission part (12), one end of the outer control part (12) and one end of the outer control part (12) are connected with the outer control part (3), the adjusting core plate (13) of the pump core plate (3) is in butt joint with the concave position clamping groove (13), the concave position control part (13) of the frame body (13), and the pump core plate (13) is connected with the concave position control part (13) and the concave position of the pump core plate (13) and the pump core plate (12), the pump core plate (3), the middle control part (10) and the pump core plate (12) and the top of the top disc (6) is connected with the top control part (6) and is connected with the pump core plate (10) and is connected with the pump The brake device comprises a transverse control plate (14) and a foot standing plate (15), the two transverse control plates (14) are distributed in parallel, a middle shaft part (11) penetrates through the middle part of each transverse control plate (14), the foot standing plates (15) are fixed at two ends of each transverse control plate (14), a concave folding plate (13) is fixed at the top of each foot standing plate (15), one end of each concave folding plate (13) is fixed at the edge of the lower bottom surface of a top ring plate (7), the other end of each concave folding plate (13) is fixed at the edge of the lower bottom surface of a limiting arc column (9), an outer control part (12) comprises a screw part (16), an outer rod (17), an L-shaped position plate (18) and a brake seat (19), the screw part (16) is arranged at the butt joint of a pump core channel (3) and a rotary disc part (1), one side of each middle shaft part (11) is in transmission connection with the brake seat (19), the transmission seat (17) is connected between the brake seat (19) and the screw part (16), the outer rod (17) and the brake seat (19) are fixed on the L-shaped position plate (18), one end of each transverse control plate (14), a first transverse control plate (22) and a first thrust block (23), a concave rack (24) is fixed on one side of the Z-shaped plate assembly (26), a first gear (25) is connected to the concave rack (24) in a transmission manner, an inner spring rod (23) is distributed on one side of the concave rack (24) in parallel, a first spring (22) is sleeved on the inner spring rod (23), one end of the first spring (22) is contacted with a push block (21), the push block (21) is fixed on the Z-shaped plate assembly (26), the inner spring rod (23) movably penetrates through a through hole formed in the push block (21), one side of the push block (21) opposite to the first spring (22) is provided with a blocking block (20), the blocking block (20) is fixed on the inner spring rod (23), the other end of the first spring (22) is contacted with a direction control block (27), the direction control block (27) is fixed on one side of an L-shaped position plate (18), one end of the Z-shaped assembly (26) movably penetrates through an L-shaped hole formed in the direction control block (27), the middle shaft assembly (11) controls the Z-shaped plate assembly (26) in a transmission manner, the screw (16) comprises a blocking plate (28), a plurality of blocking plates (28), a plurality of arc-shaped plate (29), a plurality of arc-shaped plate (32) and a brake disc-shaped plate (8) which is uniformly distributed after the arc plate (31) and a brake disc-shaped plate (8) and a brake disc-shaped plate (31) and a brake disc-shaped plate (8) which are uniformly distributed on one side of a brake disc-shaped plate, the brake disc (8) rotates to drive the pump core (56), the resistance plate (28) intercepts and guides the pump core (56) to enter a gap between the brake disc (8) and the limiting arc column (9), a transverse support plate on the resistance plate (28) is arranged in a square groove formed in a side shell of the pump core channel (3), one end of the Z-shaped movable plate (29) is fixed on the resistance plate (28), the other end of the Z-shaped movable plate (29) is provided with a bolt (30), a threaded column part of the bolt (30) penetrates through a threaded hole formed in the Z-shaped movable plate (29), a polished rod part of the bolt (30) is movably sleeved in a through hole formed in one end of the Z-shaped fixed plate (31), the Z-shaped fixed plate (31) is distributed on one side of the Z-shaped movable plate (29) in parallel, the other end of the Z-shaped fixed plate (31) is fixed on a side shell of the pump core channel (3), one end of the bolt (30) is fixed with a disc gear (33), one side of the disc gear (33) is connected with a second gear (32) in a meshing manner, the second gear (32) is fixed at one end of an outer rod (17), a first shaft clamping rod (17) and a second shaft clamping assembly (35) and a second shaft assembly (35) and a spring assembly (35) are arranged on the middle shaft (35) and a second shaft (35), the first shaft (35) is movably sleeved in a through hole formed in the middle of one transverse control plate (14), the second shaft (39) is movably sleeved in a through hole formed in the middle of the other transverse control plate (14), the top of the first shaft (35) penetrates through the middle of the brake disc (8) and the top disc (6) respectively, one side of the top of the second shaft (39) is connected with an elastic clamping piece (37), one end of the elastic clamping piece (37) protrudes into a hemispherical groove (55) formed in one side of the bottom of the first shaft (35), a plurality of hemispherical grooves (55) which are uniformly distributed are formed in one side of the bottom of the first shaft (35), a plurality of convex teeth which are distributed in arc positions are fixed on the other side of the first shaft (35), and the convex teeth are positioned on one side of the top of the concave plate component (36), the bottom of the concave plate component (36) is fixed on the second shaft (39), a clockwork spring piece (38) is arranged below the elastic clamping piece (37), the clockwork spring piece (38) is connected between the first shaft (35) and the second shaft (39), the elastic clamping piece (37) and the clockwork spring piece (38) are positioned on one side of the middle part of the concave plate component (36), the first shaft (35) is externally sleeved with a top component (34), one end of the top component (34) is used for driving the Z-shaped plate component (26), the top of the concave plate component (36) is in transmission connection with the top component (34), the concave plate component (36) comprises a supporting gear (40), the supporting shaft (41) and the concave folding side plate (42), the bottom end of the concave folding side plate (42) is fixed on the second shaft (39), two through holes are formed in a shell at the top end of the concave folding side plate (42), the supporting shaft (41) is movably sleeved in each through hole, the supporting gear (40) is fixed at the top end of the supporting shaft (41), the top component (34) comprises a semi-ring column (49), an outer arc groove rail body (50) and a control body (51), the control body (51) comprises an inner gear ring and a long plate integrally connected with one side outside the inner gear ring, the semi-ring column (49) is fixed at the top end of the concave folding side plate (42), the outer arc groove rail bodies (50) are fixed at two ends of the semi-ring column (49), the two outer arc groove rail bodies (50) are symmetrically distributed around the first shaft (35), the two outer arc groove rail bodies (50) are matched with the inner gear ring of the inner support control body (51), the two supporting gears (40) are in meshed connection, one of the two supporting gears (40) is in transmission connection with the top component (34), the other supporting gear (40) is in motion around the first shaft (35), the other supporting gear (40), the control plate (35) and the swinging clamping plate (26) and the control plate (26) and the swinging gear (26) and the swinging clamping plate (26) and the long plate (51) can be in a swinging clamping plate (26), position clamping column (43) are including the hemisphere piece of short column and short column one end body coupling, the hemisphere piece of position clamping column (43) is protruding to hemisphere groove (55), the cover has pressure spring (44) on the short column of position clamping column (43), pressure spring (44) support between hemisphere piece and V type position board (45), the one end of V type position board (45) is fixed on second shaft (39), the through-hole that V type position board (45) other end was seted up is run through in position clamping column (43) short column activity, clockwork spring spare (38) are including L type subplate (46), straight subplate (47) and clockwork spring (48), clockwork spring (48) cover is outside at second shaft (39), the innermost of clockwork spring (48) is fixed with straight subplate (47), straight subplate (47) are fixed on second shaft (39), outermost end L type subplate (46) of clockwork spring (48), the top of L type subplate (46) is fixed on first shaft (35).

2. A push pump head assembly apparatus as claimed in claim 1, wherein: z type board subassembly (26) are including intercepting interior post (52), braking interior post (53) and Z type diaphragm (54), the bottom of Z type diaphragm (54) is fixed with intercepting interior post (52) and braking interior post (53), the long board one end of control body (51) is salient in the interception between post (52) and the braking interior post (53).

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