CN110594232B - Vane type anti-back flushing hydraulic motor with different transportation temperatures - Google Patents

Abstract

The invention discloses a blade type anti-back flushing hydraulic motor with different transportation temperatures, which structurally comprises a column core, a separating tray and a main separating layer, wherein the column core penetrates through the separating tray, when a conveyor belt conveys objects with low temperature, a cold bead suction head arranged at the bottom end of the conveyor belt firstly induces and collides, a thin suction head connected at the middle part adsorbs external water-cooling beads to a certain degree, the external water-cooling beads cannot excessively flow onto the outer separating layer, when the temperature is continuously transmitted, when an external top adhesive collides, a clamping notch of the outer top adhesive is inwards concave, when bearing the resisting force, the outer top adhesive can be in a concave state, the periphery of the inner top adhesive is more protruded, when the whole inner top adhesive swings under stress, a sharp supporting angle connected between the inner top adhesive and the outer top adhesive can drag an expanding resisting angle, after bearing a certain force, the inner top adhesive stretches to play a role of expanding the reaction force, can continuously run after being buffered, and when the hydraulic motor is heated differently, the force for preventing reverse rotation in time is exerted, and the device can continue to operate after being buffered in situ.

Description

Vane type anti-back flushing hydraulic motor with different transportation temperatures

Technical Field

The invention belongs to the field of motors, and particularly relates to a vane type recoil hydraulic motor capable of preventing transportation temperature from being inconsistent.

Background

When the vane type hydraulic motor is used for transporting articles which are just taken out of the refrigerating chamber, the vanes are driven to start rotating inside by the aid of hydraulic pushing hot expansion force, and the ends of the vanes which abut against the inside can be lubricated when the vanes are pushed by hydraulic pressure smoothly.

Based on the above findings, the present inventors found that the existing hydraulic motor mainly has the following disadvantages, for example:

the article that the transportation strip was transported lets its self temperature descend to some extent to the position of contacting with hydraulic motor transmits to some extent, and inside hydraulic temperature will have and influence the reduction to cause the phenomenon of shrinkage, let the condition of smooth blade after some.

Therefore, it is necessary to provide a vane type hydraulic motor capable of preventing back flushing of the vane type hydraulic motor at different transportation temperatures.

Disclosure of Invention

The problem of the article that the transportation strip transported lets its self temperature drop to some extent to reach with the position of hydraulic motor contact, the inside hydraulic pressure temperature will have to influence to reduce to cause the phenomenon of shrinkage, let the smooth blade condition after some is solved in order to solve above-mentioned technique.

The invention relates to a purpose and an effect of a vane type recoil hydraulic motor capable of preventing transportation temperature from being inconsistent, which are achieved by the following specific technical means:

the structure of the hydraulic cylinder comprises a belt column core, a separation tray, a main separation layer and a blade type hydraulic body.

The belt column core penetrates through the inside of the separation tray, the bottom end of the separation tray is connected with the upper surface of the main interlayer, and the main interlayer is installed on the upper surface of the blade type hydraulic body.

The vane type hydraulic body comprises a high-pressure oil port, an inner groove disc, a cold bead suction head, a forward sliding rod, a low-pressure oil port and an outer interlayer, the high-pressure oil port is embedded in the outer interlayer, the cold bead suction head is connected with the outer interlayer, the forward sliding rod is embedded in the inner groove disc and movably connected with the inner groove disc, and the low-pressure oil port penetrates through the inner part of the outer interlayer.

As a further improvement of the invention, the cold bead suction head comprises a fine suction head, a cold shrinkage head, a soft isolation body and a deformation bag, wherein the fine suction head is connected with the cold shrinkage head, the cold shrinkage head is embedded in the deformation bag, the deformation bag is connected with the soft isolation body, four cold shrinkage heads are arranged, two cold shrinkage heads are in a group, and six fine suction heads are arranged.

As a further improvement of the invention, the forward sliding resisting rod comprises three spacing blocks, three outer top rubbers, three inner buckling heads, three unfolding resisting angles and three main blocks, wherein the spacing blocks are attached to the outer surfaces of the main blocks, the outer top rubbers are connected with the inner buckling heads, the inner buckling heads are embedded into the unfolding resisting angles.

As a further improvement of the invention, the inner buckle head comprises a glue abutting ring, a convex abutting rod, a notch, a pulling strip and a pointed supporting angle, the pointed supporting angle is attached to the outer surface of the glue abutting ring, the notch is connected with the convex abutting rod, the pulling strip abuts against the inner wall of the glue abutting ring, the pulling strip is circularly and uniformly distributed, and the glue abutting ring is of a circular structure.

As a further improvement of the invention, the pulling strip comprises a soft bag core, a bag ball, an extension ball, an outer swinging body, a torsion strip and a force fixing head, wherein the torsion strip is embedded in the soft bag core, the extension ball is attached to the outer surface of the bag ball, the bag ball is arranged in the outer swinging body, the torsion strip is connected with the force fixing head, the extension ball is of a hemispherical structure and is provided with two torsion strips, and the number of the torsion strips is two.

As a further improvement of the invention, the unfolding and supporting angle comprises a swung body, supporting angle protectors, bonding and pressing layer angles and a core protection layer, the swung body is embedded in the core protection layer, the supporting angle protectors are attached to the outer surface of the core protection layer, the bonding and pressing layer angles are connected with the core protection layer, eight swung bodies are arranged and are of a spherical structure, and three bonding and pressing layer angles are arranged.

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

when the conveyor belt conveys the objects with low temperature, the cold bead suction heads arranged at the bottom end of the conveyor belt are firstly inducted and collided, the thin suction heads connected at the middle part can adsorb the external water-cooling beads to a certain degree, and the external water-cooling beads can not excessively flow to the outer interlayer, when the temperature is continuously transmitted and the outer top rubber is abutted, the inner buckle head inside can support and hold the residual force, the card notch will be concave inward, and will be concave when bearing the resisting force, making the periphery more prominent, when the whole inner buckle swings under stress, the tip support angle connected between the inner buckle and the outer buckle drags the expansion support angle, and the expansion support angle can expand to play a role in expanding the reaction force after bearing a certain force, the hydraulic motor can continue to operate after being buffered, and can play a role in preventing reverse rotation in time when the hydraulic motor is heated differently, so that the hydraulic motor can continue to operate after being buffered in situ.

Drawings

FIG. 1 is a schematic structural diagram of a vane-type hydraulic motor for preventing back flushing due to different transportation temperatures according to the present invention.

FIG. 2 is a schematic top view of the vane-type hydraulic body according to the present invention.

FIG. 3 is a schematic view of the front view of the internal structure of a bead-sucking head according to the present invention.

Fig. 4 is a schematic front view of the inner structure of the forward sliding bar according to the present invention.

Fig. 5 is a schematic front view of an internal structure of an internal buckle according to the present invention.

FIG. 6 is a front view of an internal construction of a tear back strip of the present invention.

Fig. 7 is a schematic front view of an internal structure of a spreading angle according to the present invention.

In the figure: the device comprises a columnar core-aa, a separating tray-aa, a main separating layer-aa, a vane type hydraulic body-aa, a high-pressure oil port-tt, an inner groove disc-tt, a cold bead suction head-tt, a forward sliding abutting rod-tt, a low-pressure oil port-tt, an outer separating layer-tt, a fine suction head-asd, a cold shrinkage head-asd, a soft separating body-asd, a deformation bag-asd, a spacing block-, an outer top rubber-, an inner buckle head-, a spreading angle-, a main block-, a rubber abutting ring-g 1, a convex abutting rod-g 2, a clamping notch-g 3, a pulling strip-g 4, a sharp supporting angle-g 5, a soft core-zx, a bag ball-zx, a spreading ball-zx, an outer pendulum body-zx, a torsion strip-zx, a fixing force head-zx, a pendulum body-w, a supporting angle-ww, a sticking layer angle-ww and a core protecting layer-w.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a vane type recoil hydraulic motor capable of preventing transportation temperature from being inconsistent, which structurally comprises a belt column core aa1, an isolation tray aa2, a main isolation layer aa3 and a vane type hydraulic body aa 4.

The belt pillar core aa1 penetrates through the inside of the partition tray aa2, the bottom end of the partition tray aa2 is connected with the upper surface of the main partition layer aa3, and the main partition layer aa3 is mounted on the upper surface of the blade type hydraulic body aa 4.

The vane type hydraulic body aa4 comprises a high-pressure oil port tt01, an inner groove disc tt02, a cold bead suction head tt03, a forward sliding support rod tt04, a low-pressure oil port tt05 and an outer interlayer tt06, the high-pressure oil port tt01 is embedded into the outer interlayer tt06, the cold bead suction head tt03 is connected with the outer interlayer tt06, the forward sliding support rod tt04 is embedded into the inner groove disc tt02 and movably connected with the inner groove disc tt02, and the low-pressure oil port tt05 penetrates through the outer interlayer tt 06.

The cold bead suction head tt03 comprises a fine suction head asd1, a cold contraction head asd2, a soft insulation body asd3 and a deformation bag asd4, the fine suction head asd1 is connected with the cold contraction head asd2, the cold contraction head asd2 is embedded into the deformation bag asd4, the deformation bag asd4 is connected with the soft insulation body asd3, the cold contraction head asd2 is provided with four cold contraction heads and two cold contraction heads are in a group, the fine suction head asd1 is provided with six cold contraction heads, the cold contraction head asd2 can roughly sense the external temperature, so that the temperature of the cold contraction head asd is transmitted, the deformation bag asd4 senses the deformation corresponding to the temperature sensing of the connected part, and the fine suction head asd1 can play a role of adsorption when the cold bead suction head asd1 moves in a certain range.

The forward sliding resisting rod tt04 comprises a spacing block qqq1, an outer top rubber qqq2, an inner buckle qqq3, an expanding resisting angle qqq4 and a main block qqq5, wherein the spacing block qqq1 is attached to the outer surface of the main block qqq5, the outer top rubber qqq2 is connected with the inner buckle qqq3, the inner buckle qqq3 is embedded into the expanding resisting angle qqq4, the number of the inner buckles qqq3 is three, the expanding resisting angle qqq4 is three, the main block qqq5 is fixed to be in an overall approximate shape, the outer top rubber qqq2 is used for bearing the force resisted by the outside, the inner buckle qqq3 further resists the force resisted by the outside, so that the outward sliding resisting angle is uniformly expanded inwards, and the expanding resisting angle qqq4 can be expanded to play a role in expanding the reaction force after bearing a certain force.

The inner buckle head qqq3 comprises a glue abutting ring g1g, a protruding abutting rod g2g, a notch g3g, a pull-back strip g4g and a pointed abutting angle g5g, wherein the pointed abutting angle g5g is attached to the outer surface of the glue abutting ring g1g, the notch g3g is connected with the protruding abutting rod g2g, the pull-back strip g4g abuts against the inner wall of the glue abutting ring g1g, the pull-back strip g4g is uniformly distributed in a circular shape, the glue abutting ring g1g is in a circular ring-shaped structure, the protruding abutting rod g2g enables the stressed area to be in a concave-convex state, the glue abutting rod can better bear the abutting force, the notch g3g can be in a concave state when bearing the abutting force, the periphery of the glue abutting ring is more convex, the pull-back strip g4g swings according to the direction of the stressed force and plays a role in reaction, and the pointed abutting angle g5g extends the area of the connection.

The tensile bar g4g includes a soft bag core zx01, a bag ball zx02, an extension ball zx03, an external pendulum body zx04, a torsion bar zx05 and a force fixing head zx06, the torsion bar zx05 is embedded in the soft bag core zx01, the extension ball zx03 is attached to the outer surface of the bag ball zx02, the bag ball zx02 is mounted in the external pendulum body zx04, the torsion bar zx05 is connected with the force fixing head zx06, the extension ball zx03 is of a two-piece structure, the torsion bar zx05 is provided with two pieces, the bag ball zx02 generates certain extrusion and deformation according to the external force, the extension ball zx03 expands the area of the engaged hemispherical force, the torsion bar zx05 is in a torsion state after being stressed, and plays a role of reaction force, and the soft bag core zx01 plays a role of buffering with the internal soft bag core during movement.

The unfolding supporting angle qqq4 comprises a swinging object ww11, a supporting angle ww22, a sticking layer angle ww33 and a core protection layer ww44, wherein the swinging object ww11 is embedded into a core protection layer ww44, the outer surface of the core protection layer ww44 is attached with the supporting angle ww22, the sticking layer angle ww33 is connected with the core protection layer ww44, the swinging object ww11 is provided with eight and is of a spherical structure, the sticking layer angle ww33 is three, the swinging object ww11 generates swinging according to external deformation to play a role in protecting and limiting the moving range, the sticking layer angle ww33 enables an external object to better touch the body, and the supporting angle ww22 performs protection on the integral end angle to a certain degree.

The specific use mode and function of the embodiment are as follows:

in the invention, when a belt pillar core aa1 is connected on a rotating shaft at a conveying end, a vane type hydraulic body aa4 is arranged inside the bottom end of a conveying belt, when the conveying belt conveys articles with low temperature, a cold bead suction head tt03 arranged at the bottom end of the conveying belt is firstly contacted by induction, so that an outermost cold shrinkage head asd2 is pressed inwards by cold shrinkage force, a connected deformation bag asd4 is pressed by a cold shrinkage head asd2 to extend towards a middle space, a thin suction head asd1 connected at the middle part adsorbs outside water-cooling beads to a certain degree, the outside water-cooling beads cannot excessively flow onto an outer isolation layer tt06, when the temperature is continuously transmitted, the hydraulic pressure inside the outer isolation layer 06 is cooled to have the phenomenon of retraction, when the insulation layer is ready to retract, a forward swinging tt04 is firstly contacted with the inner part of a low-pressure tt oil port 05 by outer top glue qqq2, and when the outer top glue qqq2 is contacted with the inner part qqq3, the clamping notch g3g is recessed inwards, the convex abutting rod g2g is protruded, the bag ball zx02 is stressed to swing and extrude, the area of the expansion ball zx03 is expanded, the torsion bar zx05 plays a role of reacting on the swinging, when the inner buckle qqq3 is wholly stressed and swung, the sharp supporting angle g5g connected between the inner buckle and the outer buckle drags the expansion abutting angle qqq4, the abutting angle ww22 and the core protection layer ww44 are unfolded, the swinging direction of the inner buckle is protected and buffered by the swinging body ww11, the expansion abutting angle qqq4 is opened in a fan shape, the forward sliding abutting rod tt04 can be clamped and cannot run backwards, and the inner buckle can continue to run after being buffered.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a hydraulic motor is dashed to vane type anti-transportation temperature is not uniform, its structure includes belt column core (aa 1), separates tray (aa 2), main interlayer (aa 3), vane type hydraulic pressure body (aa 4), its characterized in that:

the belt pillar core (aa 1) penetrates through the interior of the separation tray (aa 2), the bottom end of the separation tray (aa 2) is connected with the upper surface of the main separation layer (aa 3), and the main separation layer (aa 3) is mounted on the upper surface of the vane type hydraulic body (aa 4);

the vane type hydraulic body (aa 4) comprises a high-pressure oil port (tt 01), an inner groove disc (tt 02), a cold bead suction head (tt 03), a forward sliding support rod (tt 04), a low-pressure oil port (tt 05) and an outer interlayer (tt 06), the high-pressure oil port (tt 01) is embedded into the outer interlayer (tt 06), the cold bead suction head (tt 03) is connected with the outer interlayer (tt 06), the forward sliding support rod (tt 04) is embedded into the inner groove disc (tt 02) and movably connected with the inner groove disc, and the low-pressure oil port (tt 05) penetrates through the inner interlayer (tt 06).

2. The vane-type anti-transport temperature differential kick hydraulic motor as claimed in claim 1, wherein: the cold bead suction head (tt 03) comprises a fine suction head (asd 1), a cold shrinkage head (asd 2), a soft isolation body (asd 3) and a deformation bag (asd 4), wherein the fine suction head (asd 1) is connected with the cold shrinkage head (asd 2), the cold shrinkage head (asd 2) is embedded into the deformation bag (asd 4), and the deformation bag (asd 4) is connected with the soft isolation body (asd 3).

3. The vane-type anti-transport temperature differential kick hydraulic motor as claimed in claim 1, wherein: the forward sliding abutting rod (tt 04) comprises a spacing block (qqq 1), outer abutting glue (qqq 2), an inner buckle head (qqq 3), an extending abutting angle (qqq 4) and a main block (qqq 5), wherein the spacing block (qqq 1) is attached to the outer surface of the main block (qqq 5), the outer abutting glue (qqq 2) is connected with the inner buckle head (qqq 3), and the inner buckle head (qqq 3) is embedded into the extending abutting angle (qqq 4).

4. The vane-type anti-transport temperature differential kick hydraulic motor as claimed in claim 3, wherein: interior discount (qqq 3) including gluing and support ring (g 1 g), protruding support pole (g 2 g), draw bail (g 3 g), back pull strip (g 4 g), point support angle (g 5 g), point support angle (g 5 g) laminating in gluing and support ring (g 1 g) surface, draw bail (g 3 g) and protruding support pole (g 2 g) are connected, it supports at gluing and supports ring (g 1 g) inner wall to pull back strip (g 4 g).

5. The vane-type anti-transport temperature differential kick hydraulic motor as claimed in claim 4, wherein: the pull-back strip (g 4 g) comprises a soft pocket core (zx 01), a ball bag (zx 02), an extension ball (zx 03), an external pendulum body (zx 04), a torsion strip (zx 05) and a force fixing head (zx 06), the torsion strip (zx 05) is embedded into the soft pocket core (zx 01), the extension ball (zx 03) is attached to the outer surface of the ball bag (zx 02), the ball bag (zx 02) is installed inside the external pendulum body (zx 04), and the torsion strip (zx 05) is connected with the force fixing head (zx 06).

6. The vane-type anti-transport temperature differential kick hydraulic motor as claimed in claim 3, wherein: the unfolding supporting angle (qqq 4) comprises a swinging object (ww 11), a supporting angle (ww 22), a bonding layer angle (ww 33) and a core protection layer (ww 44), wherein the swinging object (ww 11) is embedded into the core protection layer (ww 44), the supporting angle (ww 22) is attached to the outer surface of the core protection layer (ww 44), and the bonding layer angle (ww 33) is connected with the core protection layer (ww 44).

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