CN220906300U - Liquid reservoir baffle loading attachment - Google Patents

Abstract

The utility model relates to the technical field of feeding of liquid storage device partition plates, in particular to a liquid storage device partition plate feeding device, which comprises a raw material tank, a conveying belt, a lifting mechanism, a backflow disc and a limiting block; the raw material tank is used for placing a liquid storage device baffle plate; the conveying belt is arranged at the outer rear side of the raw material groove and is used for conveying the separator of the liquid storage device from right to left; the lifting mechanism is used for transferring the liquid storage device partition plates in the raw material groove to the conveying belt in a row; the reflux disc comprises an inclined plate and a guide arc plate, the inclined plate is arranged on the left side of the raw material groove, the upper side of the inclined plate is obliquely arranged from front to back, and the guide arc plate is fixed on the right side of the inclined plate, and the distance between the guide arc plate and the left side of the raw material groove is gradually increased from front to right; the stopper sets up in the conveyer belt top and is located the reflux disc entrance, and the distance is greater than reservoir baffle thickness and is less than 2 times of reservoir baffle thickness between stopper downside and the conveyer belt, and the stopper right side is from going to right side to left slope. By implementing the utility model, the liquid storage device baffle plates in the raw material tank can be arranged on the conveyor belt instead of manpower, so that the manual participation rate is reduced.

Description

Liquid reservoir baffle loading attachment

Technical Field

The utility model relates to the technical field of feeding of a liquid storage device partition plate, in particular to a liquid storage device partition plate feeding device.

Background

The liquid accumulator is an important part of the compressor in the refrigeration equipment and plays roles of storage, gas-liquid separation, filtration, noise elimination and refrigerant buffering. The shell of the liquid storage device is generally composed of parts such as a cylinder body, a partition plate, an end cover and the like, and most parts are assembled and welded into the shell of the liquid storage device in a welding mode. The liquid storage device baffle plate can be installed in the liquid storage device cylinder body for welding after the accommodating groove is carved on the outer side and welding wires are wound in the accommodating groove.

In the prior art, a horizontally placed liquid storage partition plate (because the liquid storage partition plate is in a flat circular column shape and can roll relative to a conveying belt when placed vertically) is grooved by a conveying belt grooving machine, but the grooving machine can only groove one liquid storage partition plate at a time, so that the liquid storage partition plate on the conveying belt can only be one layer and enters the grooving machine one by one along the output end of the conveying belt. Because the liquid storage device baffle plates of the same batch are uniformly processed and placed in the raw material tank, workers are required to arrange the liquid storage device baffle plates on the conveying belt, and the manual participation rate is high.

Disclosure of utility model

The utility model aims to solve the technical problem of providing a feeding device for a liquid storage device partition plate, which can reduce the manual participation rate.

In order to solve the technical problems, the liquid storage device baffle plate feeding device comprises a raw material groove for placing a liquid storage device baffle plate;

The conveying belt is arranged at the outer rear side of the raw material groove and is used for conveying the separator of the liquid storage device from right to left;

the lifting mechanism is used for transferring the liquid storage device partition plates in the raw material groove onto the conveying belt in a row;

The reflux disc comprises an inclined plate and a guide arc plate, wherein the inclined plate is arranged on the left side of the raw material groove, the upper side of the inclined plate is obliquely arranged from front to back, and the guide arc plate is fixed on the right side of the inclined plate, and the distance between the guide arc plate and the left side of the raw material groove is gradually increased from front to right;

And the limiting block is arranged above the conveying belt and is positioned at the inlet of the backflow disc, the distance between the lower side of the limiting block and the conveying belt is greater than the thickness of the liquid storage device partition plate and less than 2 times the thickness of the liquid storage device partition plate, and the right side of the limiting block is inclined from the front to the right to the left.

As the improvement of above-mentioned scheme, be equipped with the first step of more than three gradual lifting from the past backward in the stock chest, lifting mechanism includes lift cylinder and installs the crane in lift output department, the crane has a plurality of one-to-one setting at first step rear side and the gradual second step of lifting from the past backward.

As an improvement of the scheme, the width of the second step is larger than the outer diameter of the liquid storage partition plate and smaller than 1.5 times of the outer diameter of the liquid storage partition plate, and the upper side of the first step and the upper side of the second step incline downwards from front to back.

As an improvement of the scheme, the limiting plate is arranged on the rear side of the conveying belt.

As an improvement of the scheme, the liquid storage device baffle plate feeding device further comprises a reflux groove, a first photoelectric switch and a pushing mechanism, wherein the reflux groove, the first photoelectric switch and the pushing mechanism are arranged at intervals from front to back, the first photoelectric switch is arranged at the left side of the limiting block and is used for detecting the upper side of the liquid storage device baffle plate on the conveying belt, the reflux groove is used for leading the liquid storage device baffle plate into the raw material groove, and the pushing mechanism is in communication connection with the first photoelectric switch and is used for pushing the liquid storage device baffle plate into an inlet of the reflux groove.

As the improvement of above-mentioned scheme, the entry of reflux tank is located the conveyer belt front side and the width is greater than the reservoir baffle external diameter and is less than 1.5 times of reservoir baffle external diameter, push mechanism is located the conveyer belt rear side and push direction just to the reflux tank entry, the export of reflux tank is located former silo left side top and is located reflux disk lower extreme place ahead.

As an improvement of the scheme, the pushing mechanism is an air nozzle with an injection port facing to the inlet of the reflux groove.

As an improvement of the scheme, the liquid storage device baffle plate feeding device further comprises a second photoelectric switch which is arranged above the conveying belt and used for detecting the liquid storage device baffle plate, the second photoelectric switch is arranged on the left side of the raw material tank and on the right side of the limiting block, and the lifting mechanism is electrically connected with the second photoelectric switch.

As an improvement of the scheme, the upper-lower distance between the lower end of the second photoelectric switch and the conveying belt is more than 2 times of the thickness of the liquid storage separator.

The implementation of the utility model has the following beneficial effects:

According to the liquid storage device baffle plate feeding device, the raw material groove, the conveying belt, the lifting mechanism, the backflow disc and the limiting block are matched with each other, so that the liquid storage device baffle plates in the raw material groove can be arranged on the conveying belt instead of manual work, the liquid storage device baffle plates stacked on the conveying belt are prevented from leaving the conveying belt and entering an external grooving machine, the liquid storage device baffle plates are prevented from being scattered around the working position of the liquid storage device baffle plate feeding device, and the manual participation rate is reduced.

Drawings

FIG. 1 is a schematic front view of a feeding device for a separator of a liquid storage device according to an embodiment of the present utility model;

FIG. 2 is a schematic top view of a structure of a separator feeding device of a liquid reservoir according to an embodiment of the present utility model;

FIG. 3 is a schematic right side view of a structure of a feeding device for a separator of a liquid storage device (a raw material tank is cut away) in an embodiment of the utility model;

Fig. 4 is a schematic diagram of a working principle of a pushing mechanism in an embodiment of the present utility model.

In the figure:

1 () () and a raw material tank; 110. a first step;

200. A conveyor belt; 210. a limiting plate;

300. A lifting mechanism; 310. a lifting cylinder; 320. a lifting frame; 321. a second step;

400. a reflow tray; 410. a sloping plate; 420. a guide arc plate;

500. A limiting block;

600. a reflux groove;

700. A first photoelectric switch;

800. A pushing mechanism;

900. And a second photoelectric switch.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical ideas claimed in the present utility model. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present utility model, are used only with reference to the drawings of the present utility model, and are not meant to be limiting in any way.

As shown in fig. 1 to 4, a feeding device for a liquid storage device baffle plate in an embodiment of the present utility model includes a raw material tank 100, a conveyor belt 200, a lifting mechanism 300, a backflow tray 400 and a limiting block 500.

The raw material tank 100 is used for placing a liquid storage partition plate; a plurality of identical batches of reservoir baffles are placed in the feed tank 100 ready for transfer to the conveyor 200.

The conveying belt 200 is arranged at the outer rear side of the raw material tank 100 and is used for conveying the separator of the liquid storage device from right to left; in practice, the left end of the conveyor belt 200 may be connected to an external router such that the reservoir partitions on the conveyor belt 200 can enter the external router.

The lifting mechanism 300 is used for transferring the liquid storage device partition boards in the raw material tank 100 to the conveyer belt 200 in a row; in practice, the lifting mechanism 300 may include a robot arm and a row of vacuum chucks disposed in a side-to-side arrangement at the output end of the robot arm, and may be capable of transferring a row of horizontally disposed reservoir partitions to the conveyor belt 200 at a time.

The reflux disk 400 includes a sloping plate 410 installed on the left side of the raw material tank 100 and having an upper side inclined upward from front to back, and a guide arc plate 420 fixed on the right side of the sloping plate 410 and having a distance from the left side of the raw material tank 100 gradually increasing from front to right; the limiting block 500 is arranged above the conveying belt 200 at the inlet of the backflow tray 400, the distance between the lower side of the limiting block 500 and the conveying belt 200 is greater than the thickness of the liquid storage partition plate and less than 2 times the thickness of the liquid storage partition plate, and the right side of the limiting block 500 is inclined from front to right to left.

When the right end of the row of liquid storage partition plates on the conveyor belt 200 does not leave the left end of the conveyor belt 200 for the row of liquid storage partition plates to enter, the lifting mechanism 300 transfers the next row of liquid storage partition plates to the conveyor belt 200, and the situation that the conveyor belt 200 has two layers of liquid storage partition plates can occur, referring to fig. 1 and 2, the conveyor belt 200 drives the liquid storage partition plates to move from right to left, the liquid storage partition plates of the upper row are contacted with the right side of the limiting block 500, and the liquid storage partition plates leaving the lower layer under the action of the right side of the limiting block 500 enter the inclined plate 410, the liquid storage partition plates entering the upper side of the inclined plate 410 move downwards along the inclined plate 410 and contact with the right side of the guide arc plate 420 under the action of gravity, and the liquid storage partition plates on the inclined plate 410 are guided into the raw material tank 100 under the working operation of the guide arc plate 420 and the inclined plate 410, so that the liquid storage partition plates are prevented from scattering around the working positions of the liquid storage partition plates feeding device.

According to the liquid storage device baffle plate feeding device, through the raw material tank 100, the conveying belt 200, the lifting mechanism 300, the backflow tray 400 and the limiting block 500, liquid storage devices in the raw material tank 100 can be arranged on the conveying belt 200 instead of manual work, the liquid storage devices stacked on the conveying belt 200 in multiple layers are prevented from leaving the conveying belt 200 and entering an external grooving machine, the liquid storage devices are prevented from being scattered around the working position of the liquid storage device baffle plate feeding device, and the manual participation rate is reduced.

It should be noted that, the raw material tank 100 is preferably provided with more than three first steps 110 that gradually rise from front to back, the lifting mechanism 300 preferably includes a lifting cylinder 310 and a lifting frame 320 installed at the lifting output end, and the lifting frame 320 is provided with a plurality of second steps 321 that are disposed at the rear side of the first steps 110 in a one-to-one correspondence manner and gradually rise from front to back. The figure shows the case of three first steps 110 and three second steps 321. Referring to fig. 3, the lifting cylinder 310 drives the lifting frame 320 to move downward so that the upper side of the second step 321 disposed at the rear side of the first step 110 is lower than the upper side of the first step 110 at the front side thereof, and the reservoir partition moves from the first step 110 to the second step 321 at the rear side thereof; the lifting cylinder 310 drives the lifting frame 320 to move upwards so that the upper sides of the second steps 321 which are arranged at the rear sides of the first steps 110 are lower than the upper sides of the first steps 110 at the front sides of the second steps, and the liquid storage partition plate moves from the second steps 321 to the first steps 110 at the rear sides or the conveyor belt 200, so that the liquid storage partition plate is moved to the conveyor belt 200.

Specifically, the width of the second step 321 is preferably greater than the outer diameter of the accumulator partition and less than 1.5 times the outer diameter of the accumulator partition, so that the second step 321 can only transfer one row of accumulator partitions arranged in a left-right arrangement at a time; and the upper side of the first step 110 and the upper side of the second step 321 are inclined downward from front to back, so that the reservoir partition plate can slide down from the upper side of the first step 110 to the upper side of the second step 321 at the rear side thereof and slide down from the upper side of the second step 321 to the upper side of the first step 110 at the rear side thereof or onto the conveyor belt 200 under the action of gravity. More specifically, the rear side of the conveyor belt 200 is preferably provided with a limiting plate 210, and the limiting plate 210 plays a role of preventing the reservoir partition from moving backward from the upper side of the rearmost second step 321 to the conveyor belt 200 and further moving backward away from the conveyor belt 200.

It should be noted that, the feeding device for a liquid storage partition plate of the present utility model further preferably includes a reflux tank 600, a first photoelectric switch 700 and a pushing mechanism 800, wherein the reflux tank 600 is disposed at a front-to-back interval, the first photoelectric switch 700 is disposed at a left side of the limiting block 500 and is used for detecting an upper side of the liquid storage partition plate on the conveyor belt 200, the reflux tank 600 is used for guiding the liquid storage partition plate into the raw material tank 100, and the pushing mechanism 800 is connected with the first photoelectric switch 700 in a communication manner and is used for pushing the liquid storage partition plate into an inlet of the reflux tank 600. In practice, the pushing mechanism 800 may be a pneumatic cylinder or an electrical telescopic rod, which enables the transfer of the reservoir partition on the conveyor belt 200 to the inlet of the return channel 600; in this embodiment, the pushing mechanism 800 is preferably an air nozzle with an injection port facing the inlet of the reflow slot 600, the air nozzle is filled with compressed air, and the switching electromagnetic valve is in communication connection with the first photoelectric switch 700, so as to realize the opening and closing of the air nozzle. The upper end or the lower end of the horizontally placed liquid storage separator is provided with a cover plate, when the cover plate is positioned at the upper end of the liquid storage separator, the first photoelectric switch 700 detects the cover plate, and at the moment, the pushing mechanism 800 acts to push the liquid storage cover plate positioned at the upper end of the liquid storage separator from back to front to the inlet of the reflux groove 600, and the liquid storage cover plate is reintroduced into the raw material groove 100 under the action of the reflux groove 600; when the cover plate is positioned at the lower end of the liquid storage partition plate, the first photoelectric switch 700 cannot detect the cover plate, and the conveyor belt 200 drives the liquid storage partition plate to move left continuously, so that the liquid storage partition plate entering the external grooving machine is ensured to face the same direction.

Specifically, the inlet of the backflow groove 600 is preferably located at the front side of the conveyor belt 200, and the width of the inlet is greater than the outer diameter of the accumulator partition and less than 1.5 times of the outer diameter of the accumulator partition, so that the accumulator partition can smoothly move from back to front into the backflow groove 600; the pushing mechanism 800 is preferably located at the rear side of the conveyor belt 200, and the pushing direction is opposite to the inlet of the reflux tank 600, so as to push the reservoir partition plate on the conveyor belt 200 to move from back to front; the outlet of the reflux drum 600 is preferably located above the left side of the raw material drum 100 and in front of the lower end of the reflux tray 400, so as to avoid collision between the reservoir partition returned from the reflux drum 600 to the raw material drum 100 and the reservoir partition returned from the reflux tray 400 to the raw material drum 100.

Further, the feeding device for the accumulator separator of the present utility model preferably further includes a second photoelectric switch 900 disposed above the conveyor belt 200 and used for detecting the accumulator separator, the second photoelectric switch 900 is disposed on the left side of the raw material tank 100 and on the right side of the stopper 500, and the lifting mechanism 300 is electrically connected to the second photoelectric switch 900. The second photoelectric switch 900 can detect whether the conveyor belt 200 has a liquid storage device separator, when the second photoelectric switch 900 detects that the conveyor belt 200 has a liquid storage device separator, the lifting mechanism 300 is controlled to stop acting until the lifting mechanism 300 is controlled to act when the second photoelectric switch 900 detects that the conveyor belt 200 does not have a liquid storage device separator, so that the situation that the liquid storage device separators are stacked in multiple layers on the conveyor belt 200 is further reduced. In fact, the vertical distance between the lower end of the second photoelectric switch 900 and the conveyor belt 200 is preferably greater than 2 times the thickness of the reservoir partitions, so as to prevent the two stacked reservoir partitions from colliding with the second photoelectric switch 900 when moving from left to right.

It should be noted that, the feeding device of the accumulator separator of the present utility model is preferably further provided with a controller (such as a PLC or a central control unit), so as to realize the communication connection between the first photoelectric switch 700 and the pushing mechanism 800 and the communication connection between the second photoelectric switch 900 and the lifting mechanism 300, and the controller is in communication connection with the electrical components, so as to improve the automation degree of the feeding device of the accumulator separator.

The foregoing description is only specific embodiments of the present utility model, and not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the present utility model.

Claims (9)

1. The utility model provides a reservoir baffle loading attachment which characterized in that: comprising

The raw material tank is used for placing a liquid storage device baffle plate;

The conveying belt is arranged at the outer rear side of the raw material groove and is used for conveying the separator of the liquid storage device from right to left;

the lifting mechanism is used for transferring the liquid storage device partition plates in the raw material groove onto the conveying belt in a row;

The reflux disc comprises an inclined plate and a guide arc plate, wherein the inclined plate is arranged on the left side of the raw material groove, the upper side of the inclined plate is obliquely arranged from front to back, and the guide arc plate is fixed on the right side of the inclined plate, and the distance between the guide arc plate and the left side of the raw material groove is gradually increased from front to right;

And the limiting block is arranged above the conveying belt and is positioned at the inlet of the backflow disc, the distance between the lower side of the limiting block and the conveying belt is greater than the thickness of the liquid storage device partition plate and less than 2 times the thickness of the liquid storage device partition plate, and the right side of the limiting block is inclined from the front to the right to the left.

2. A reservoir diaphragm loading apparatus as defined in claim 1, wherein: the material tank is internally provided with more than three first steps which are gradually lifted from front to back, the lifting mechanism comprises a lifting cylinder and a lifting frame arranged at the lifting output end, and the lifting frame is provided with a plurality of second steps which are arranged at the rear side of the first steps in a one-to-one correspondence manner and gradually lifted from front to back.

3. A reservoir diaphragm loading apparatus as defined in claim 2, wherein: the width of the second step is larger than the outer diameter of the liquid storage separator and smaller than 1.5 times of the outer diameter of the liquid storage separator, and the upper sides of the first step and the second step incline downwards from front to back.

4. A reservoir diaphragm loading apparatus as defined in claim 3, wherein: and a limiting plate is arranged at the rear side of the conveying belt.

5. A reservoir diaphragm loading apparatus as defined in claim 1, wherein: still include from the back interval setting's reflux tank, first photoelectric switch and push mechanism, first photoelectric switch sets up in the stopper left side and is used for detecting the conveyer belt and goes up reservoir baffle upside, the reflux tank goes into and is used for leading-in raw materials inslot with the reservoir baffle, push mechanism is connected with first photoelectric switch communication and is used for pushing the inlet of reflux tank with the reservoir baffle.

6. A reservoir diaphragm loading apparatus as defined in claim 5, wherein: the inlet of the reflux groove is positioned at the front side of the conveying belt, the width of the inlet of the reflux groove is larger than the outer diameter of the liquid storage device partition plate and smaller than 1.5 times of the outer diameter of the liquid storage device partition plate, the pushing mechanism is positioned at the rear side of the conveying belt, the pushing direction of the pushing mechanism is opposite to the inlet of the reflux groove, and the outlet of the reflux groove is positioned above the left side of the raw material groove and in front of the lower end of the reflux disc.

7. A reservoir diaphragm loading apparatus as defined in claim 5, wherein: the pushing mechanism is an air nozzle with an injection port facing the inlet of the reflux groove.

8. A reservoir diaphragm loading apparatus as defined in claim 1, wherein: the lifting mechanism is electrically connected with the second photoelectric switch.

9. A reservoir diaphragm loading apparatus as defined in claim 8, wherein: the upper and lower distance between the lower end of the second photoelectric switch and the conveying belt is greater than 2 times of the thickness of the liquid storage device partition plate.