CN201194777Y - Energy conservation apparatus of industrial dust aspirator - Google Patents

Abstract

The utility model provides an energy-saving device for an industrial dust collector. The energy-saving device comprises at least two dust collector main machines, the starters thereof, and a main air inlet pipeline and a branch air inlet pipeline which are connected with the dust collector main machines, pipelines communicated in parallel are arranged between the main air inlet pipelines of two or more dust collectors, a switching valve is arranged at one end where the main air inlet pipeline of each dust collector is adjacent to the dust collector main machines, a switching controller calculates the required minimum quantity of the working tables of the dust collector main machines according to the data fed back by a working state detecting unit of an operating point, and sends a command to turn off the corresponding dust collector main machine with smaller amount of running operating points, synchronously, the corresponding switching valve is turned off, and the rest dust collector main machines which are continued to run bear the burden of dust removal for the running operating points, therefore, not only the dust removal effect is guaranteed, but also the efficiency is improved, and the purpose of saving the energy is achieved.

Description

A kind of industrial dust collector energy saver

Technical field

The utility model relates to a kind of energy saver, is specifically related to a kind of industrial dust collector energy saver.

Background technology

Present industrial dust collector application, the single-row separately operation of each dust collector host, when each setting of have jurisdiction over had only minority in operation, corresponding dust collector host still must be moved, inefficiency, and cause huge energy waste.

The utility model content

In order to address the above problem, the purpose of this utility model is to provide a kind of industrial dust collector energy saver, comprise at least two dust collector host and starter thereof, the main admission line that is connected with each dust collector host and an admission line, between the dust catcher master admission line more than two or two, be provided with connecting pipe in parallel, be provided with one at every dust catcher master admission line near dust collector host one end and switch valve.

More excellent, described switch valve is by forming with the wind dynamic valve that corresponding dust collector host is opened synchronously or closed.

Preferably, described switch valve is by forming with corresponding dust collector host unlatching synchronously or electromagnetic valve closed.

Preferably, the setting working state detection device that described industrial dust collector energy saver also is provided with switch controller and is electrically connected with it, switch controller is electrically connected with the starter and the magnetic valve of each dust collector host.

After adopting technique scheme, the data that switch controller feeds back according to the setting working state detection device, calculate needed minimum dust collector host workbench number, and send instruction and close rich and corresponding dust collector host that running job point is minimum, close corresponding switch valve simultaneously, the dedusting task of its running job point of having jurisdiction over is born by the dust collector host that all the other continue operation, has both guaranteed dust removing effects, reached again and raised the efficiency, the purpose of energy savings.

Description of drawings

Fig. 1 is the schematic diagram of a kind of industrial dust collector energy saver first embodiment of the utility model;

Fig. 2 is the schematic diagram of a kind of industrial dust collector energy saver second embodiment of the utility model;

Fig. 3 is the schematic diagram of a kind of industrial dust collector energy saver the 3rd embodiment of the utility model;

Fig. 4 is the schematic diagram of a kind of industrial dust collector energy saver the 4th embodiment of the utility model;

Fig. 5 is the schematic diagram of a kind of industrial dust collector energy saver the 5th embodiment of the utility model;

Fig. 6 is the schematic diagram of a kind of industrial dust collector energy saver the 6th embodiment of the utility model.

Among the figure:

1, dust collector host 2, connecting pipe in parallel 3, switch valve

4, switch controller 5, setting duty detector

6, starter 7, main admission line 8, flow sensor

9, prop up admission line 10, air inlet

The specific embodiment

Below in conjunction with accompanying drawing the utility model being done one describes in detail.

As shown in Figure 1, the utility model provides a kind of first embodiment of industrial dust collector energy saver, comprise two dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between two dust catcher master admission lines 7, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3, and between the connecting pipe in parallel 2 of each bar master admission line 7 and an admission line 9, install flow sensor 8.

Wherein, described switch valve 3 is by forming with the wind dynamic valve that corresponding dust collector host 1 is opened synchronously or closed, comprise valve body and the spool that resets certainly, when the dust collector host 1 of correspondence is opened, form pressure differential in the spool both sides, force spool to be opened, air freely flows through the wind dynamic valve, when the dust collector host 1 of correspondence is closed, spool returns to the closed position under the effect of automatic runback device, thereby cut off air and be back to the approach of main admission line, guaranteed the validity of another operating dust collector host 1 work from corresponding dust collector host 1.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 of each dust collector host 1.

Its operation principle is; flow sensor 8 is sent to switch controller 4 with flow parameter; when setting stops operation; the air inlet 10 at its place can be closed; air mass flow in the main admission line 7 can descend; when detecting flow, flow sensor 8 drops to when setting value; switch controller 4 sends switching command to a few dust collector host 1 of running job point; by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed; whole system is born by an other dust collector host 1; when setting resumes operation; its place air inlet 10 is opened; flow in the main admission line 7 can increase; when detecting flow, flow sensor 8 is increased to when setting value; switch controller 4 sends switching command to a dust collector host 1 of shutting down, and by starting corresponding starter 61 start of corresponding dust collector host and switch valve 3 is opened, and whole system is born jointly by two dust collector host 1.

As shown in Figure 2, the utility model provides a kind of second embodiment of industrial dust collector energy saver, comprise three dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between the dust catcher master admission line 7 more than two or two, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3, and between the connecting pipe in parallel 2 of each bar master admission line 7 and an admission line 9, install flow sensor 8.

Wherein, described switch valve 3 is by forming with the wind dynamic valve that corresponding dust collector host 1 is opened synchronously or closed, comprise valve body and the spool that resets certainly, when the dust collector host 1 of correspondence is opened, form pressure differential in the spool both sides, force spool to be opened, air freely flows through the wind dynamic valve, when the dust collector host 1 of correspondence is closed, spool returns to the closed position under the effect of automatic runback device, thereby cut off air and be back to the approach of main admission line, guaranteed the validity of other operating dust collector host 1 work from corresponding dust collector host 1.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 of each dust collector host 1.

Its operation principle is, flow sensor 8 is sent to switch controller 4 with flow parameter, when setting stops operation, the air inlet 10 at its place can be closed, air mass flow in the main admission line 7 can descend, when detecting flow, flow sensor 8 drops to when setting value, switch controller 4 sends switching command to one of running job point less (flow value is lower) or two dust collector host 1, corresponding dust collector host 1 is shut down and switch valve 3 is closed by closing corresponding starter 6, whole system is born by other two or a dust collector host 1; When setting resumes operation; its place air inlet 10 is opened; flow in the main admission line 7 can increase; when detecting flow, flow sensor 8 is increased to when setting value; switch controller 4 sends switching command to one that shuts down or two dust collector host 1; make 1 start of corresponding dust collector host and switch valve 3 unlatchings simultaneously by starting corresponding starter 6, whole system is born jointly by two or three dust collector host 1.

By that analogy, by suitable logic control program, can realize the parallel running between any platform cleaner system easily.

As shown in Figure 3, the utility model provides a kind of the 3rd embodiment of industrial dust collector energy saver, comprise two dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between two dust catcher master admission lines 7, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3.

Wherein, described switch valve 3 is by forming with the wind dynamic valve that corresponding dust collector host 1 is opened synchronously or closed, comprise valve body and the spool that resets certainly, when the dust collector host 1 of correspondence is opened, form pressure differential in the spool both sides, force spool to be opened, air freely flows through the wind dynamic valve, when the dust collector host 1 of correspondence is closed, spool returns to the closed position under the effect of automatic runback device, thereby cut off air and be back to the approach of main admission line, guaranteed the validity of another operating dust collector host 1 work from corresponding dust collector host 1.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 of each dust collector host 1.

Its operation principle is, when setting operation or shutdown, the air inlet 10 at its place can be unlocked or close, (for example in service be 1 to setting working state detection device 5 the state value of All Jobs point, shutdown is 0) be sent to switch controller 4, switch controller 4 is counted all active jobs to count with the operation of shutting down and is compared, and the result is for just, then do not send switching command, two dust collector host 1 and starter 6 thereof and switch valve 3 all are in running status; If, then send switching command to a few dust collector host 1 of running job point for negative, by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by an other dust collector host 1.

As shown in Figure 4, the utility model provides a kind of the 4th embodiment of industrial dust collector energy saver, comprise three dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between the dust catcher master admission line 7 more than two or two, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3.

Wherein, described switch valve 3 is by forming with the wind dynamic valve that corresponding dust collector host 1 is opened synchronously or closed, comprise valve body and the spool that resets certainly, when the dust collector host 1 of correspondence is opened, form pressure differential in the spool both sides, force spool to be opened, air freely flows through the wind dynamic valve, when the dust collector host 1 of correspondence is closed, spool returns to the closed position under the effect of automatic runback device, thereby cut off air and be back to the approach of main admission line, guaranteed the validity of other operating dust collector host 1 work from corresponding dust collector host 1.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 of each dust collector host 1.

Its operation principle is, when setting operation or shutdown, the air inlet 10 at its place can be unlocked or close, (for example in service be 1 to setting working state detection device 5 the state value of All Jobs point, shutdown is 0) be sent to switch controller 4, switch controller 4 is counted all active jobs and the operation of shutting down is counted is divided by, when the result greater than 2, then do not send switching command, three dust collector host 1 and starter 6 thereof and switch valve 3 all are in running status; As the result smaller or equal to 2 greater than 1, then send switching command to a minimum dust collector host 1 of running job point, by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by other two dust collector host 1; When the result smaller or equal to 1; then send switching command to two less dust collector host 1 of running job point; by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by an other dust collector host 1.

By that analogy, by suitable logic control program, can realize the parallel running between any platform cleaner system easily.

As shown in Figure 5, the utility model provides a kind of the 5th embodiment of industrial dust collector energy saver, comprise two dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between two dust catcher master admission lines 7, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3.

Wherein, described switch valve 3 is by forming with corresponding dust collector host 1 unlatching synchronously or electromagnetic valve closed.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 and the switch valve 3 of each dust collector host 1.

Its operation principle is, when setting operation or shutdown, the air inlet 10 at its place can be unlocked or close, (for example in service be 1 to setting working state detection device 5 the state value of All Jobs point, shutdown is 0) be sent to switch controller 4, switch controller 4 is counted all active jobs to count with the operation of shutting down and is compared, and the result is for just, then do not send switching command, two dust collector host 1 and starter 6 thereof and switch valve 3 all are in running status; If, then send switching command to a few dust collector host 1 of running job point for negative, by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by an other dust collector host 1.

As shown in Figure 6, the utility model provides a kind of the 6th embodiment of industrial dust collector energy saver, comprise three dust collector host 1 and starter 6 thereof, the main admission line 7 that is connected with each dust collector host 1 and an admission line 9, between the dust catcher master admission line 7 more than two or two, be provided with connecting pipe 2 in parallel, be provided with one at every dust catcher master admission line 7 near dust collector host 1 one ends and switch valve 3.

Wherein, described switch valve 3 is by forming with corresponding dust collector host 1 unlatching synchronously or electromagnetic valve closed.

Wherein, the setting working state detection device 5 that described industrial dust collector energy saver also is provided with switch controller 4 and is electrically connected with it, switch controller 4 is electrically connected with the starter 6 and the switch valve 3 of each dust collector host 1.

Its operation principle is, when setting operation or shutdown, the air inlet 10 at its place can be unlocked or close, (for example in service be 1 to setting working state detection device 5 the state value of All Jobs point, shutdown is 0) be sent to switch controller 4, switch controller 4 is counted all active jobs and the operation of shutting down is counted is divided by, when the result greater than 2, then do not send switching command, three dust collector host 1 and starter 6 thereof and switch valve 3 all are in running status; As the result smaller or equal to 2 greater than 1, then send switching command to a minimum dust collector host 1 of running job point, by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by other two dust collector host 1; When the result smaller or equal to 1; then send switching command to two less dust collector host 1 of running job point; by closing corresponding starter 61 shutdown of corresponding dust collector host and switch valve 3 are closed, whole system is born by an other dust collector host 1.

By that analogy, by suitable logic control program, can realize the parallel running between any platform cleaner system easily.

After adopting technique scheme, the data that switch controller 4 feeds back according to setting working state detection device 5 or flow sensor 8, calculate the workbench number of needed minimum dust collector host 1, and send instruction and close rich and corresponding dust collector host 1 that running job point is less, close corresponding switch valve 3 simultaneously, the dedusting task of its running job point of having jurisdiction over is born by the dust collector host 1 that all the other continue operation, both guaranteed dust removing effects, reached again and raised the efficiency, the purpose of energy savings.

Above-described only is preferred implementation of the present utility model; should be pointed out that for the person of ordinary skill of the art, under the prerequisite that does not break away from the invention design; can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (4)

1. industrial dust collector energy saver, comprise at least two dust collector host and starter thereof, the main admission line that is connected with each dust collector host and an admission line, it is characterized in that, between the dust catcher master admission line more than two or two, be provided with connecting pipe in parallel, be provided with one at every dust catcher master admission line near dust collector host one end and switch valve.

2. a kind of industrial dust collector energy saver according to claim 1 is characterized in that, described switch valve is by forming with the wind dynamic valve that corresponding dust collector host is opened synchronously or closed.

3. a kind of industrial dust collector energy saver according to claim 1 is characterized in that, described switch valve is by forming with corresponding dust collector host unlatching synchronously or electromagnetic valve closed.

4. a kind of industrial dust collector energy saver according to claim 1, it is characterized in that, the setting working state detection device that described industrial dust collector energy saver also is provided with switch controller and is electrically connected with it, switch controller is electrically connected with the starter and the magnetic valve of each dust collector host.

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