CN218408759U - Air pressure monitoring device of hot melting foaming tank - Google Patents

Abstract

The utility model discloses a pneumatic monitoring device of hot melt expanded can, its structure includes: lead screw thread post, traction wheel, axle bed sleeve cap, floater pneumatic valve, blast pipe, ring flange group seat, steam-lift pipe, floater pneumatic valve nestification is and link up each other on steam-lift pipe's top, the utility model discloses an application floater pneumatic valve cooperatees with the blast pipe, detects the atmospheric pressure detection and the non return that the slide gas overflow gyration formed ball valve and floater end through air flue track frame and floater and adds stopper elasticity and close the gas operation effect, promotes the curved pipeline of ventilating and the blast pipe butt joint middle section pipeline early warning and controls the atmospheric pressure detection and independently adjust the recoil and push down the operation effect that the floater detected the slide, lets pneumatic supply of subsequent hot melt foaming jar and the flexible operating handle of switch that supplies with the liquid and form a flexible anti-sticking shell of case accuse operation effect.

Description

Air pressure monitoring device of hot melting foaming tank

Technical Field

The utility model relates to a pneumatic monitoring device of hot melt foaming jar belongs to hot melt foaming jar accessory field.

Background

The hot melt foaming jar is the physical molecule foaming jar body of gas hot filling, and its inside specific heat capacity pressure is great to realize the popped fashioned shoemaking technology operation effect of molecule, let each different accessory pipelines of hot melt foaming jar and pressure regulating obtain integrating, and the sealed convenient switch of equipment of nimble equipment of interior frame operation and drawing of corresponding, in the holistic foaming integration equipment of universal application, the public shortcoming of treating the optimization of prior art has:

liquid nitrogen of the hot melting foaming tank is filled and gasified to overflow and return to release the gas-liquid circulation efficiency of the pipeline in the integration of central control gas pressure detection and valve regulation, so that the adjustment operation of the heat capacity value of the whole tank is promoted, but the conventional valve only detects the gas overflow property and the leakage amount, the control and terminal pipeline valve core internal pressure are insufficient for the whole pipeline internal circulation, and the screwing piston pushing and pressing amount of the check valve is large, so that the situation of difficult pin pulling of the secondary pipeline of the shell clamping is easy.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art exists, the utility model aims at providing a pneumatic monitoring device of hot melt foaming jar, with the liquid nitrogen of solving hot melt foaming jar pour into and the gasification overflows to return and releases the gas-liquid circulation efficiency that needs well accuse atmospheric pressure to detect and valve regulation and control integration inner tube way, thereby promote holistic in-tank heat pressure and the adjustment operation of liquefaction cooling specific heat capacity value, but conventional valve only lies in detecting gas leakage nature and leakage quantity, to pipeline inner circulation whole to the accuse and terminal pipeline case internal flow pressure equipment not enough, the piston of screwing of check valve bulldozes the problem of the great easy condition of pulling out the round pin difficulty of card shell secondary pipeline of volume.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides an atmospheric pressure monitoring devices of hot melt foaming jar, its structure includes: the air passage track frame is installed in the floating ball lifting groove, the air passage track frame is inserted in the upper left corner of the ventilation elbow pipe and is communicated with the left corner of the ventilation elbow pipe, the ventilation elbow pipe is installed in the valve casing groove, the floating ball lifting groove is embedded in the top of the valve casing groove, the air passage track frame is installed in the floating ball lifting groove, the air passage track frame is installed in the air passage lifting groove, the air passage track frame is inserted in the upper left corner of the ventilation elbow pipe and is communicated with the left corner of the ventilation elbow pipe, the ventilation elbow pipe is installed in the valve casing groove, the air passage lifting groove is embedded in the top of the valve casing groove, the air passage track frame is connected with the detection sliding seat mechanically, the detection sliding seat is installed in the floating ball lifting groove, and the floating ball lifting groove is installed in the floating ball lifting groove.

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

as the utility model discloses a further improvement, the floater detects the slide and detains piece, draw runner piece, tee bend core trachea, bee check net gasbag by the ring and constitute, the draw runner piece is inserted and is inlayed in the inside of ring knot piece, tee bend core trachea is inserted and is inlayed in the left side of bee check net gasbag and link up each other, the ring is detained the piece and is nested integrative with tee bend core trachea.

As the utility model discloses a further improvement, bee check net gasbag comprises bee check rack, thick wall gasbag groove, the inside in thick wall gasbag groove is installed to the bee check rack, bee check rack and the nested integrative and link up each other of thick wall gasbag groove.

As the utility model discloses a further improvement, the air flue track frame is the compound track frame structure of bilateral strip track area mesophragma crack gas pipeline, and the gas circuit forms the operation effect that the stable frame of track was protected of detection air flue side position collection in the convenience.

As a further improvement, the composite strip sliding frame structure of the middle partition sliding rail strip embedded buckle is adopted as the sliding strip, and the lifting sliding adjustment adaptation is conveniently clamped in the opposite position to lift the air and press the air linkage high efficiency.

As the utility model discloses a further improvement, the compound spatial grid structure of bee check rack for close through-hole bee check form hexagon, it is high-efficient to make things convenient for stretch-draw to admit air carminative elastic tension compound adaptation atmospheric pressure to detect the feedback.

Advantageous effects

The utility model relates to an atmospheric pressure monitoring device of hot melt frothing pot, through staff's gyration hand driving wheel bulldoze the axle bed cap along lead screw thread post and drive floater pneumatic valve subside butt joint blast pipe and ring flange group seat, let carry the gas that the trachea was led into liquid nitrogen pipeline and is carried and detect the slide through the air flue rail frame butt joint floater in the floater lift inslot, make the curved pipeline of ventilating of valve casing inslot form one carry the gas and the operation effect of the outer row of valve handle accuse of ventilating, let the buckle piece package buckle slide bar piece drive the three-way core trachea and peg graft bee check net gasbag and promote the drum gas and receive gas adaptation atmospheric pressure detection regulation and control operation effect in bee check net rack and thick wall gasbag groove, promote holistic stoppering and stop the gyration operation, also promote the flexible valve handle accuse regulation and control degree of lifting and pushing of ventilating.

The utility model discloses the advantage that can reach after the operation has:

the floating ball pneumatic valve is matched with the exhaust pipe, the air pressure detection and the non-return plugging elastic air closing operation effects of the ball valve and the floating ball end are formed through air passage rail frame and floating ball detection sliding seat air overflow rotation, the operation effect that the floating ball detection sliding seat is pressed down by the self-adjusting recoil of the early warning handle control and the air pressure detection of the butt joint middle section pipeline of the ventilation bent pipeline and the exhaust pipe is improved, and the subsequent pneumatic supply and hydraulic supply of the hot melting foaming tank are enabled to form the switch flexible handle control operation effect of the flexible valve core anti-blocking shell.

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 the air pressure monitoring device of the hot-melt foaming tank of the present invention.

Fig. 2 is a schematic view of the detailed cross-sectional structure of the float ball pneumatic valve of the present invention.

Fig. 3 is the cross-sectional structure diagram of the float detecting slide operating status of the present invention.

Fig. 4 is the sectional structure schematic diagram of the working state of the bee-net airbag of the utility model.

Description of the reference numerals: the device comprises a screw rod threaded column-1, a traction wheel-2, a shaft seat sleeve cap-3, a floating ball air pressure valve-4, an exhaust pipe-5, a flange plate group seat-6, an air lifting pipe-7, a floating ball lifting groove-41, an air passage rail frame-42, a floating ball detection slide seat-43, a valve shell groove-44, an air-through bent pipeline-45, a ring buckle block-431, a slide bar block-432, a three-way core air pipe-433, a bee-grid air bag-434, a bee-grid net frame-4341 and a thick-wall air bag groove-4342.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The first embodiment is as follows:

referring to fig. 1-4, the present invention provides an air pressure monitoring device for a hot-melt foaming tank, which comprises: the screw rod threaded column comprises a screw rod threaded column 1, a hand traction wheel 2, an axle seat sleeve cap 3, a floating ball air pressure valve 4, an exhaust pipe 5, a flange plate group seat 6 and an air lifting pipe 7, wherein the floating ball air pressure valve 4 is nested on the top of the air lifting pipe 7 and is communicated with the air lifting pipe, the floating ball air pressure valve 4 is nested on the left side of the exhaust pipe 5 and is communicated with the air lifting pipe 7, the exhaust pipe 5 and the flange plate group seat 6 are buckled together and have collinear axes, the flange plate group seat 6 and the air lifting pipe 7 are buckled together and have collinear axes, the axle seat sleeve cap 3 is nested on the top of the floating ball air pressure valve 4, the screw rod threaded column 1 vertically penetrates through the interior of the hand traction wheel 2 and the axle seat sleeve cap 3 and has collinear axes, and the hand traction wheel 2 is mechanically connected with the floating ball air pressure valve 4 through the axle seat sleeve cap 3, the floating ball air pressure valve 4 is provided with a floating ball lifting groove 41, an air passage rail frame 42, a floating ball detection sliding seat 43, a valve shell groove 44 and a ventilation bent pipeline 45, the air passage rail frame 42 is installed inside the floating ball lifting groove 41, the air passage rail frame 42 is inserted and embedded in the upper left corner of the ventilation bent pipeline 45 and communicated with each other, the ventilation bent pipeline 45 is installed inside the valve shell groove 44, the floating ball lifting groove 41 is embedded and embedded on the top of the valve shell groove 44, the air passage rail frame 42 is mechanically connected with the floating ball detection sliding seat 43, the floating ball detection sliding seat 43 is installed inside the floating ball lifting groove 41, the valve shell groove 44 is embedded and embedded on the top of the gas lifting pipe 7 and communicated with each other, the air passage rail frame 42 is of a composite rail frame structure with a separation and crack air pipeline in a double-side rail band, and an operation effect of detecting an air passage side collection rail stable frame protection is conveniently formed by a ventilation path.

Referring to fig. 3, the floating ball detection slide 43 is composed of a ring buckle block 431, a slide block 432, a three-way core air tube 433 and a honeycomb grid air bag 434, the slide block 432 is inserted and embedded inside the ring buckle block 431, the three-way core air tube 433 is inserted and embedded at the left side of the honeycomb grid air bag 434 and is communicated with each other, the ring buckle block 431 and the three-way core air tube 433 are embedded and embedded into a whole, and the slide block 432 is of a composite strip block carriage structure which is embedded and buckled in a middle partition slide rail strip seam, so that the clamping, lifting, sliding and adjusting are convenient to align and the high efficiency of matching with air lifting and air pressure linkage.

Please refer to fig. 4, the honeycomb grid airbag 434 is composed of a honeycomb grid 4341 and a thick-wall airbag groove 4342, the honeycomb grid 4341 is installed inside the thick-wall airbag groove 4342, the honeycomb grid 4341 and the thick-wall airbag groove 4342 are nested into a whole and are communicated with each other, and the honeycomb grid 4341 is a composite grid structure of a dense through hole honeycomb hexagon, so that the elastic tension composite adaptive air pressure detection feedback of tensioning, air intake and exhaust is convenient and efficient.

The working process is as follows: the hand traction wheel 2 is rotated by a worker to push and press the shaft seat sleeve cap 3 along the screw rod threaded column 1 to drive the floating ball air pressure valve 4 to subside and butt joint the exhaust pipe 5 and the flange plate group seat 6, gas conveyed by a liquid nitrogen pipeline led by the gas lifting pipe 7 is butted with the floating ball detection slide seat 43 through the air passage rail frame 42 in the floating ball lifting groove 41, the air-ventilating bent pipeline 45 in the valve shell groove 44 forms an operation effect of air lifting and air exhausting outside valve handle control, the ring buckling block 431 is wrapped and buckled with the sliding strip block 432 to drive the three-way core air pipe 433 to be plugged into the honeycomb grid air bag 434 to lift the air blowing and air collecting adaptive air pressure detection and control operation effect of the honeycomb grid 4341 and the thick-wall air bag groove 4342, the integral plugging and stopping rotation operation is promoted, and the ventilation and lifting flexible valve handle control automatic safety protection degree is also promoted.

The utility model discloses a combination of each other of above-mentioned parts, it cooperatees with blast pipe 5 to reach application floater pneumatic valve 4, detect the atmospheric pressure detection and the non return that slide 43 overflows the gas gyration and form ball valve and floater end through air flue rail frame 42 and floater and add stopper elasticity air-lock operation effect, promote the early warning of elbow vent 45 and blast pipe 5 butt joint middle section pipeline and press down the operation effect that the floater detected slide 43 to control and pneumatic detection independently adjust the recoil, let subsequent hot melt foaming jar pneumatic supply with surge supply with the flexible handle of switch that forms a flexible anti-sticking shell of case control operation effect, thereby solve the liquid nitrogen of hot melt foaming jar and pour into and the gas-liquid circulation efficiency that the excessive release of gasification needs well accuse atmospheric pressure detection and valve regulation and control integration inner pipeline, thereby promote holistic in-tank heat pressure intensity and liquefied cooling specific heat capacity value adjustment operation, but conventional valve only lies in detecting excessive gas nature and leakage quantity, to the whole of pipeline inner circulation be not enough with the terminal pipeline case inner flow of control, the problem of the circumstances of difficulty of the big easy sticking shell secondary pipeline of bulldozing of the volume of screwing.

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.

Claims (6)

1. The utility model provides a pressure monitoring device of hot melt foaming jar, its structure includes: lead screw thread post (1), hand driving wheel (2), axle bed sleeve cap (3), floater air pressure valve (4), blast pipe (5), ring flange group seat (6), carry trachea (7), its characterized in that:

the floating ball air pressure valve (4) is nested on the top of the air lifting pipe (7), the floating ball air pressure valve (4) is nested on the left side of the exhaust pipe (5), the exhaust pipe (5) is buckled with the flange plate group seat (6), the flange plate group seat (6) is buckled with the air lifting pipe (7), the shaft seat sleeve cap (3) is nested on the top of the floating ball air pressure valve (4), the lead screw threaded column (1) vertically penetrates through the hand traction wheel (2) and the inside of the shaft seat sleeve cap (3), and the hand traction wheel (2) is mechanically connected with the floating ball air pressure valve (4) through the shaft seat sleeve cap (3);

the floating ball pneumatic valve (4) is provided with a floating ball lifting groove (41), an air passage rail frame (42), a floating ball detection sliding seat (43), a valve shell groove (44) and a ventilation bent pipeline (45);

the air flue rail frame (42) is installed in a floating ball lifting groove (41), the air flue rail frame (42) is inserted and embedded in the upper left corner of a ventilation bent pipeline (45), the ventilation bent pipeline (45) is installed in a valve shell groove (44), the floating ball lifting groove (41) is embedded and embedded in the top of the valve shell groove (44), the air flue rail frame (42) is mechanically connected with a floating ball detection sliding seat (43), the floating ball detection sliding seat (43) is installed in the floating ball lifting groove (41), and the valve shell groove (44) is embedded and embedded in the top of the gas lifting pipe (7).

2. The air pressure monitoring device of the hot melt foaming tank as claimed in claim 1, wherein: the floater detects slide (43) and comprises latch closure piece (431), draw runner piece (432), three-way core trachea (433), bee check net gasbag (434), draw runner piece (432) are inserted and are inlayed in the inside of latch closure piece (431), three-way core trachea (433) are inserted and are inlayed in the left side of bee check net gasbag (434), latch closure piece (431) are nested as an organic whole with three-way core trachea (433).

3. The air pressure monitoring device of the hot melt foaming tank as claimed in claim 2, wherein: the bee lattice net air bag (434) is composed of a bee lattice net rack (4341) and a thick-wall air bag groove (4342), the bee lattice net rack (4341) is installed inside the thick-wall air bag groove (4342), and the bee lattice net rack (4341) and the thick-wall air bag groove (4342) are nested into a whole.

4. The air pressure monitoring device of the hot melt foaming tank as claimed in claim 1, wherein: the air flue rail frame (42) is a composite rail frame structure with double-side strip rails and middle crack air pipelines.

5. The air pressure monitoring device of the hot melt foaming tank as claimed in claim 2, wherein: the sliding strip block (432) is a composite strip block sliding frame structure which is embedded and buckled in the middle partition sliding rail strip.

6. The air pressure monitoring device of the hot melt foaming tank as claimed in claim 3, wherein: the bee lattice net rack (4341) is a composite net rack structure of a dense through hole bee lattice hexagon.

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