CN219412981U - Vortex fan suction device adapting to multi-station operation - Google Patents

Abstract

The utility model provides a vortex fan suction device suitable for multi-station operation, and belongs to the technical field of machinery. The vacuum suction type vortex fan solves the problems that an existing vacuum suction mode is low in utilization rate of the vortex fan and cannot adapt to multi-person and multi-station common operation. The utility model provides a vortex fan suction device of adaptation multistation operation includes vortex fan, control valve, elastic hose, toper suction nozzle and guide rail device, and the air inlet pipeline of vortex fan links firmly with control valve, elastic hose and toper suction nozzle in proper order through the pipe connection, and the top of toper suction nozzle is provided with guide rail device, installs the sliding block on the guide rail device, and the sliding block links firmly with the connector link through the extension spring, when the connector link links firmly on elastic hose, the toper suction nozzle alright take place the displacement along with the removal of sliding block. The utility model has the advantages of simple and flexible structure, reduced production cost and energy consumption, adaptation to multi-user multi-station operation and different working environments, easy practical application and improved working efficiency.

Description

Vortex fan suction device adapting to multi-station operation

Technical Field

The utility model belongs to the technical field of machinery, and particularly relates to a vortex fan suction device suitable for multi-station operation.

Background

For products such as quilts, clothing, forage etc. that expand due to the presence of large amounts of air in the structure, it is often necessary to compress and pack them by means of vacuum suction. The existing vacuum packer generally adopts a structural design similar to a dust collector, so that the cost is high, the energy consumption is high, and the working efficiency is low.

According to a vacuum baling press that patent number CN201210554729.4 discloses, it includes movable frame and sets up the air pump on movable frame, and the air pump includes the air intake, is equipped with the aspiration channel on the air intake of air pump, and the tip of aspiration channel is equipped with the suction head, still is equipped with the filter between the air intake of air pump and the aspiration channel, is equipped with the air door between suction head and the aspiration channel.

The vortex fan is adopted as the air suction device, the working performance is good, the heat is not easy to damage, the utilization rate of the vortex fan is low, and the requirements of multi-person multi-station common operation cannot be met.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a vortex fan suction device suitable for multi-station operation.

The aim of the utility model can be achieved by the following technical scheme: a vortex fan suction device suitable for multi-station operation comprises a vortex fan, a control valve, an elastic hose, a conical suction nozzle, a guide rail device and the like;

the air inlet pipeline of the vortex fan is sequentially connected and communicated with the pressure release valve, the filter vat and the control valve through pipelines, the control valve is fixedly connected with one end of an elastic hose, and the other end of the elastic hose is fixedly connected with the conical suction nozzle;

the upper side of toper suction nozzle is provided with guide rail device, install the sliding block on the guide rail device, the bottom of sliding block has linked firmly the extension spring, the terminal of extension spring has linked firmly the connector link.

In the vortex fan suction device adapting to multi-station operation, the control valve is provided with a button, and the button is used for switching on and off the control valve.

In the vortex fan suction device adapting to multi-station operation, a plurality of suction nozzle holes are uniformly distributed on the conical suction nozzle; the conical suction nozzle is thickened by forming a suction nozzle step at one end connected with the elastic hose.

In the vortex fan suction device adapting to multi-station operation, the muffler is fixedly connected to the air outlet pipeline of the vortex fan, so that excessive noise is avoided under the working state of the device.

In the vortex fan suction device adapting to multi-station operation, the pipeline connection is communicated by mutually combining a double-wire joint, a reducing tee joint and an elbow.

In the vortex fan suction device adapting to multi-station operation, three working modes are arranged:

1. the sliding rail type is a pipe corresponding to a fan, the connecting buckle is fixedly connected to one end of the elastic hose, which is close to the conical suction nozzle, and the conical suction nozzle is matched with the guide rail device and moves along with the movement of the sliding block;

2. the multi-end type filter barrel is provided with a fan corresponding to a plurality of pipes, and a plurality of groups of control valves, elastic hoses and conical suction nozzles are connected in series through a double-wire connector and a reducing tee joint behind the filter barrel so as to be communicated with each other, so that the simultaneous operation of the plurality of pipes is realized;

3. the on-vehicle swirl fan is in an overall structure outside installation equipment box to the filter vat, control valve is connected with the filter vat through the metal pipeline, offer the mounting hole on the lateral wall of equipment box and supply the metal pipeline to pass through.

Compared with the prior art, the vortex fan suction device adapting to multi-station operation has the advantages of simple and flexible structure and convenient assembly and disassembly; the utilization rate of the vortex fan is improved, and the production cost and the energy consumption are reduced; the multi-station working system can adapt to multi-person multi-station operation and different working environments, is easy to be applied practically, and greatly improves the working efficiency.

Drawings

FIG. 1 is a schematic diagram of a suction device of a vortex fan adapted to multi-station operation in a slide rail type;

FIG. 2 is a schematic diagram of the multi-stage operation adapted vortex fan suction apparatus;

FIG. 3 is a schematic diagram of the present multi-station operation adapted vortex fan suction apparatus in a vehicle-mounted manner;

FIG. 4 is a block diagram of a conical suction nozzle in the present multi-station operation adapted vortex fan suction apparatus;

in the above figures, 1, muffler; 2. a double wire joint; 3. reducing tee joint;

4. a pressure release valve; 5. an elbow; 6. a filter vat;

7. a control valve; 71. a button; 8. an elastic hose;

9. a conical suction nozzle; 91. a suction nozzle hole; 92. a suction nozzle step;

10. a swirl fan; 101. an air inlet pipeline; 102. an air outlet pipeline;

11. a guide rail device; 111. a sliding block; 112. a telescopic spring; 113. a connecting buckle;

12. an equipment box; 121. a mounting hole; 13. a metal pipe.

Description of the embodiments

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to fig. four, the vortex fan suction device suitable for multi-station operation comprises a vortex fan 10, a control valve 7, an elastic hose 8, a conical suction nozzle 9 and a guide rail device 11. The silencer 1 is fixedly connected to an air outlet pipeline 102 of the vortex fan 10, an air inlet pipeline 101 of the vortex fan 10 is sequentially communicated with the pressure release valve 4, the filter vat 6 and the control valve 7 through pipeline connection, a button 71 is arranged on the control valve 7, and the pipeline connection is realized by mutually combining the double-wire connector 2, the reducing tee joint 3 and the elbow 5.

Further, the pressure release valve 4 plays roles in releasing pressure and protecting safety of the whole device; the filter vat 6 can filter the impurity in the air, prevents that impurity from piling up the jam pipeline, influences device work.

As shown in fig. one to fig. four, two ends of the elastic hose 8 are respectively and fixedly connected with the control valve 7 and the conical suction nozzle 9, and a plurality of suction nozzle holes 91 are uniformly distributed on the conical suction nozzle 9, so that air can be rapidly sucked, and the purposes of saving time and energy consumption are achieved. The conical suction nozzle 9 is provided with a suction nozzle step 92 at one end connected with the elastic hose 8, which is beneficial to the connection between the conical suction nozzle 9 and the elastic hose 8 to be more stable.

The rated power of the vortex fan 10 in the vortex fan suction device suitable for multi-station operation is 0.12 kW-100 kW, the maximum wind pressure is 8 kPa-100 kPa, the maximum negative pressure is 7 kPa-100 kPa, and the maximum wind quantity is 29 m/h-10250 m/h.

The vortex fan suction device adapting to multi-station operation is provided with three working modes for different application scenes:

1. the slide rail type, as shown in figure one, controls a pipeline passage by a vortex fan 10 when a fan corresponds to a pipe. The guide rail device 11 is arranged above the conical suction nozzle 9, the sliding block 111 is arranged on the guide rail device 11, the bottom of the sliding block 111 is fixedly connected with the telescopic spring 112, the tail end of the telescopic spring 112 is fixedly connected with the connecting buckle 113, and the connecting buckle 113 is fixedly connected to one end of the elastic hose 8, which is close to the conical suction nozzle 9, so that the conical suction nozzle 9 is matched with the guide rail device 11, and displacement occurs along with the movement of the sliding block 111.

This form is adapted to the indoor multi-station operation, and the slide block 111 on the rail device 11 is controlled by an electronic program and moves to above the designated station in the working state, so that the worker can pull down the conical suction nozzle 9, and can return to the original position by the elasticity of the telescopic spring 112 by loosening the hands after the use is completed.

For example, a vortex fan 10 with rated power of 1.1kW has a maximum wind pressure of 24kPa, a maximum negative pressure of 22kPa and a maximum wind volume of 210 m/h under the voltage of 220V of single-phase electricity.

2. Multiple ends, as shown in figure two, when a fan corresponds to multiple pipes, namely, one vortex fan 10 controls multiple pipeline paths. After the filter vat 6, a plurality of groups of control valves 7, elastic hoses 8 and conical suction nozzles 9 can be connected in series through the double-wire connector 2 and the reducing tee joint 3 so as to be communicated with each other.

This form is adapted for multi-person operation. Different workers can take care of different conical suction nozzles 9, and only the button 71 is pressed down for use in the use process, so that the working efficiency can be greatly improved. In the industrial field of China, three-phase power 380V is usually adopted, for example, a vortex fan 10 with rated power of 1.5kW and rated voltage of 380V has the maximum wind pressure of 27kPa, the maximum negative pressure of 24kPa and the maximum wind volume of 210 m/h.

3. In the vehicle-mounted type, as shown in the third figure, when the vehicle-mounted type vehicle-mounted device is used by being mounted on a transport vehicle such as a truck or a truck. An equipment box 12 is arranged outside the integral structure from the vortex fan 10 to the filter vat 6, a mounting hole 121 is formed in the side wall of the equipment box 12, one end of a metal pipeline 13 is connected with the filter vat 6, and the other end of the metal pipeline is connected with the control valve 7 through the mounting hole 121.

This form is because can't carry out the power supply through alternating current, consequently adopts the mode of freight train storage battery energy supply to realize work. For example, a multi-cylinder diesel engine or a diesel engine with more than 25 horsepower in a single cylinder is usually powered by 24V battery voltage, the power of the adopted vortex fan 10 can reach 0.75kW at maximum, the maximum wind pressure is 21kPa, the maximum negative pressure is 20kPa, and the maximum wind quantity is 145 m/h.

Further, the equipment box 12 can separate the device from the goods to be transported, and the metal pipeline 13 can prevent the pipeline from being unsmooth due to the tilting of the goods. When in use, a worker only needs to suck and pack cargoes by using the conical suction nozzle 9 and then place the cargoes on a transport vehicle.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although various terms are used more herein, the use of other terms is not precluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (8)

1. The utility model provides an adaptation multistation operation's vortex fan suction device, includes vortex fan (10), control valve (7), elastic hose (8), toper suction nozzle (9) and guide rail device (11), a serial communication port, on the air-out pipeline (102) of vortex fan (10) have linked firmly muffler (1), air inlet pipeline (101) of vortex fan (10) are linked together with relief valve (4), filter vat (6), control valve (7) through the pipe connection in proper order, control valve (7) links firmly with the one end of elastic hose (8), the other end of elastic hose (8) links firmly with toper suction nozzle (9), the top of toper suction nozzle (9) is provided with guide rail device (11), install slider (111) on guide rail device (11), the bottom of slider (111) has linked firmly expansion spring (112), the end of expansion spring (112) has linked firmly connector link (113).

2. The vortex fan suction device adapted to multi-station operation according to claim 1, characterized in that the control valve (7) is provided with a button (71).

3. The vortex fan suction device adapting to multi-station operation according to claim 1, wherein a plurality of suction nozzle holes (91) are uniformly distributed on the conical suction nozzle (9), and the conical suction nozzle (9) is provided with a suction nozzle step (92) at one end connected with the elastic hose (8).

4. The vortex fan suction device adapting to multi-station operation according to claim 1, wherein the pipeline connection is communicated by combining a double-wire joint (2), a reducing tee joint (3) and an elbow (5).

5. The suction device for a vortex fan adapted to multi-station operation according to claim 1, characterized in that it is provided with three working modes: slide rail type, multi-terminal type and vehicle-mounted type.

6. The vortex fan suction device adapting to multi-station operation according to claim 1 or 5, wherein the slide rail type is a fan corresponding to a pipe, the connecting buckle (113) is fixedly connected to one end of the elastic hose (8) close to the conical suction nozzle (9), and the conical suction nozzle (9) is matched with the guide rail device (11) and moves along with the movement of the sliding block (111).

7. The vortex fan suction device adapting to multi-station operation according to claim 1 or 5, wherein the multi-end type fan corresponds to multiple pipes, and the filter vat (6) is connected with a plurality of groups of control valves (7), elastic hoses (8) and conical suction nozzles (9) in series through the double-wire connector (2) and the reducing tee joint (3) so as to be communicated with each other.

8. The vortex fan suction device adapting to multi-station operation according to claim 1 or 5, wherein in actual use, an equipment box (12) is arranged on the outer side of the whole structure from the vortex fan (10) to the filter vat (6), the control valve (7) is connected with the filter vat (6) through a metal pipeline (13), and a mounting hole (121) is formed in the side wall of the equipment box (12) for the metal pipeline (13) to pass through.