CN210943954U - Temporary storage device for flax seed raw materials - Google Patents

Abstract

A temporary storage device for sesame seed raw materials comprises a receiving device, a powder collecting device, a temporary storage device and an air compression pump, wherein the powder collecting device is arranged on one side of the receiving device, the temporary storage device is arranged on one side of the receiving device, an outlet end of the air compression pump is communicated with a material conveying pipeline through a compressed air pipeline, the receiving device comprises a receiving bin and a supporting frame body used for supporting the receiving bin, a notch is formed in the upper portion of the surface of the receiving bin, which is far away from one side of the powder collecting device, and a telescopic material receiving component is arranged in the notch; through toppling over the sesame to telescopic material receiving component in, the sesame can directly flow into in receiving the storehouse, has reduced workman's transport number of times, makes things convenient for the workman to unload the sesame of transporting coming, has reduced intensity of labour, and the powder that produces at this in-process, then can absorb the back through powder collection device and collect to the phenomenon that the powder flies upward has been reduced.

Description

Temporary storage device for flax seed raw materials

Technical Field

The utility model relates to a sesame seed is stored and conveying equipment technical field especially relates to a sesame seed raw materials temporary storage device.

Background

Flax seed is after transporting to oil processing factory, need carry flax seed to the jar of keeping in, supply processing to use, transport flax seed to oil processing factory back at transport vehicle, it is broken to the sack of splendid attire flax seed usually, then pour flax seed into conveying equipment, then carry to the jar of keeping in through conveying equipment, but at this in-process, the workman need move down the sack of splendid attire flax seed from transport vehicle earlier, then carry to other empting of conveying equipment again, so not only increased intensity of labour, and at the in-process of empting, partial powder in the flax seed can give off in the air.

Disclosure of Invention

In view of the above, there is a need for a temporary storage device for flaxseed material that reduces handling and eliminates dusting.

A temporary storage device for flax seed raw materials comprises a receiving device, a powder collecting device, a temporary storage device and an air compression pump, wherein the powder collecting device is arranged on one side of the receiving device, the inlet end of the powder collecting device is positioned right above the receiving device, the temporary storage device is arranged on one side of the receiving device and is communicated with the bottom of the receiving device through a material conveying pipeline, the outlet end of the air compression pump is communicated with the material conveying pipeline through a compressed air pipeline so as to blow flax seeds entering the material conveying pipeline from the receiving device into the temporary storage device through compressed air, the receiving device comprises a receiving bin and a supporting frame body used for supporting the receiving bin, the upper part of the surface of the receiving bin, which is far away from the powder collecting device, is provided with a notch, a telescopic material receiving component is arranged in the notch, and the lower part of the telescopic material receiving component is connected with the lower end of the notch through a pin shaft, the upper end of the telescopic material receiving component is detachably connected with the upper parts of two sides of the receiving bin, the bottom of the receiving bin is fixedly provided with a stable discharging component, the inlet end of the stable discharging component is communicated with the bottom of the receiving bin, and the outlet end of the stable discharging component is communicated with the material conveying pipeline. ,

preferably, telescopic material receiving component includes that the first silo, the second that connects connect the silo, the first size that connects the silo matches with the size of receiving the opening on the storehouse, the first lower part that connects the silo is sold hub connection with the opening, the first upper portion that connects the silo both sides has seted up first fixed orifices, the second connects the silo to install at the first silo that connects, the second connects the outer wall in silo and the first inner wall that connects the silo to laminate mutually, and can follow the first inner wall relative slip that connects the silo, the second connects the upper portion of silo both sides to have seted up the second fixed orifices.

Preferably, the first spout of having seted up on the inner wall that connects the silo both sides, the second connects and fixedly on the outer wall of silo both sides to be provided with the slider, and the slider is located the second and connects the one end of silo last second fixed orifices, and the size and the spout phase-match of slider to can follow spout relative slip.

Preferably, the end of the bottom of the first material receiving groove, which is far away from the first fixing hole, is fixedly provided with a connecting pin used for being connected with the notch and rotating, the end of the bottom of the first material receiving groove, which is far away from the first fixing hole, is provided with a rectangular pit, and the pit extends to the lower part of the connecting pin.

Preferably, the second connects the fixed anti-drop strip that is provided with of one end that the second fixed orifices was kept away from to the silo bottom of material, and anti-drop strip connects the long limit direction setting of silo along the second.

Preferably, the upper part of the receiving bin, which is positioned at two sides of the opening, is provided with a pin hole, and the pin shaft is inserted into the pin hole, the first fixing hole and the second fixing hole, so that the first material receiving groove and the second material receiving groove can be fixed with the receiving bin.

Preferably, powder collection device includes that the powder collects cover, powder storage jar, fan, and powder storage jar sets up in one side of receiving the storehouse, and the dust is collected the fixed setting of cover and is being received directly over the storehouse, and the exit end intercommunication that covers is collected with the powder to the entry end of fan through the pipeline, and the exit end of fan passes through pipeline and powder storage jar intercommunication.

Preferably, the size of the powder collecting cover is matched with that of the receiving bin, and at least two powder inlet holes are formed in the surface, facing the receiving bin, of one side of the powder collecting cover.

Preferably, the temporary storage device includes the storage tank of keeping in, carries the auger, and the storage tank setting of keeping in is in the one side of receiving the storehouse, and the entry end of the storage tank of just keeping in passes through material pipeline and the exit end intercommunication of the part of unloading steadily, carries the auger setting in the below of the storage tank of keeping in, and carries the entry end of auger and the exit end intercommunication of storage tank bottom of keeping in.

The utility model adopts the above technical scheme, its beneficial effect lies in: the utility model comprises a receiving device, a powder collecting device, a temporary storage device and an air compression pump, wherein the powder collecting device is arranged at one side of the receiving device, the inlet end of the powder collecting device is positioned right above the receiving device, the temporary storage device is arranged at one side of the receiving device and is communicated with the bottom of the receiving device through a material conveying pipeline, the outlet end of the air compression pump is communicated with the material conveying pipeline through a compressed air pipeline so as to blow the flax seeds entering the material conveying pipeline from the receiving device into the temporary storage device through compressed air, the receiving device comprises a receiving bin and a supporting frame body for supporting the receiving bin, the upper part of the receiving bin far away from the surface of one side of the powder collecting device is provided with an opening, a telescopic material receiving component is arranged in the opening, the telescopic material receiving component is stretched and expanded, and one end of the telescopic material receiving component is put on the side of a transport vehicle, the workman only need cut the sack of splendid attire linseed open, emptys the linseed to the telescopic material receiving component in, the linseed can directly flow into receive the storehouse in, has reduced workman's transport number of times, makes things convenient for the workman to unload the linseed of transporting coming, has reduced intensity of labour, and the powder that produces at this in-process then can absorb the back through powder collection device and collect to the phenomenon that the powder flies upward has been reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of another state of the present invention.

Fig. 3 is the structure schematic diagram of the telescopic material receiving component of the utility model.

Fig. 4 is a schematic structural view of the first material receiving groove of the present invention.

Fig. 5 is a schematic structural view of the second receiving trough of the present invention.

In the figure: the device comprises a receiving device 01, a receiving bin 11, a stable discharging component 111, a supporting frame body 12, a telescopic receiving component 13, a first receiving groove 131, a first fixing hole 1311, a sliding groove 1312, a connecting pin 1313, a rectangular pit 1314, a second receiving groove 132, a second fixing hole 1321, a sliding block 1322, an anti-falling strip 1323, a powder collecting device, a powder collecting cover 21, a powder storage tank 22, a fan 23, a temporary storage device 03, a temporary storage tank 31, a conveying auger 32, an air compression pump 04, a material conveying pipeline 05 and a compressed air pipeline 06.

Detailed Description

Referring to fig. 1 to 5, an embodiment of the present invention provides a temporary storage device 03 for flax seed raw material, including a receiving device 01, a powder collecting device 03, a temporary storage device 03, and an air compression pump 04, wherein the powder collecting device is disposed at one side of the receiving device 01, an inlet end of the powder collecting device is located right above the receiving device 01, the temporary storage device 03 is disposed at one side of the receiving device 01, the temporary storage device 03 is communicated with a bottom of the receiving device 01 through a material conveying pipeline 05, an outlet end of the air compression pump 04 is communicated with the material conveying pipeline 05 through a compressed air pipeline 06, so as to blow flax seeds entering the material conveying pipeline 05 from the receiving device 01 into the temporary storage device 03 through compressed air, the receiving device 01 includes a receiving chamber 11 and a supporting frame 12 for supporting the receiving chamber 11, an opening is disposed at an upper portion of the receiving chamber 11 far from a side surface of the powder collecting device, the opening is internally provided with a telescopic receiving component 13, the lower part of the telescopic receiving component 13 is in pin connection with the lower end of the opening, the upper end of the telescopic receiving component 13 is detachably connected with the upper parts of two sides of the receiving bin 11, the bottom of the receiving bin 11 is fixedly provided with a stable discharging component 111, the inlet end of the stable discharging component 111 is communicated with the bottom of the receiving bin 11, and the outlet end of the stable discharging component 111 is communicated with the material conveying pipeline 05.

The telescopic receiving component 13 comprises a first receiving groove 131 and a second receiving groove 132, the first receiving groove 131 is matched with the opening on the receiving bin 11 in size, the first lower part of the receiving groove 131 is connected with the opening through a pin, the first fixing hole 1311 is formed in the upper parts of the two sides of the receiving groove 131, the second receiving groove 132 is installed in the first receiving groove 131, the outer wall of the second receiving groove 132 is attached to the inner wall of the first receiving groove 131, the inner wall of the first receiving groove 131 can slide relative to the inner wall of the first receiving groove 131, and the second fixing hole 1321 is formed in the upper parts of the two sides of the second receiving groove 132.

The inner walls of the two sides of the first material receiving groove 131 are provided with sliding grooves 1312, the outer walls of the two sides of the second material receiving groove 132 are fixedly provided with sliding blocks 1322, the sliding blocks 1322 are positioned at one end of a second fixing hole 1321 of the second material receiving groove 132, and the sliding blocks 1322 are matched with the sliding grooves 1312 in size and can relatively slide along the sliding grooves 1312.

The end, far away from first fixed orifices 1311, of the bottom of first material receiving groove 131 is fixedly provided with connecting pin 1313 for being connected with the opening and rotating, the end, far away from first fixed orifices 1311, of the bottom of first material receiving groove 131 is provided with a rectangular pit 1314, the pit extends to the lower side of connecting pin 1313, and when first material receiving groove 131 is in a vertical state, rectangular pit 1314 can be clamped at the bottom edge of the opening to play a supporting role.

The second connects the fixed anti-drop strip 1323 that is provided with of one end that keeps away from second fixed orifices 1321 in silo 132 bottom, and anti-drop strip 1323 sets up along the long limit direction of second connects silo 132. When the second connects the silo 132 to take on haulage vehicle's lateral wall, anti-drop strip 1323 can block haulage vehicle's lateral wall upper edge, can prevent that the second from connecting the silo 132 and drop or remove about, makes the second connect the silo 132 to remain stable.

The upper part of the receiving bin 11, which is positioned at two sides of one end of the opening, is provided with a pin hole, and the pin shaft is inserted into the pin hole, the first fixing hole 1311 and the second fixing hole 1321, so that the first material receiving groove 131 and the second material receiving groove 132 can be fixed with the receiving bin 11.

Powder collection device includes that the powder collects cover 21, powder storage jar 22, fan 23, and powder storage jar 22 sets up in the one side of receiving storehouse 11, and the dust is collected the fixed setting of cover and is being received directly over storehouse 11, and the exit end intercommunication of cover 21 is collected with the powder to the entry end of fan 23 through the pipeline, and the exit end of fan 23 passes through pipeline and powder storage jar 22 intercommunication.

The size of the powder collecting cover 21 is matched with that of the receiving bin 11, and at least two powder inlet holes are formed in the surface of one side, facing the receiving bin 11, of the powder collecting cover 21.

The temporary storage device 03 comprises a temporary storage tank 31 and a conveying auger 32, the temporary storage tank 31 is arranged on one side of the receiving bin 11, the inlet end of the temporary storage tank 31 is communicated with the outlet end of the stable discharging component 111 through a material conveying pipeline 05, the conveying auger 32 is arranged below the temporary storage tank 31, and the inlet end of the conveying auger 32 is communicated with the outlet end of the bottom of the temporary storage tank 31.

The utility model has the following working mode that after a transport vehicle for transporting the flax seeds drives in, the transport vehicle stops at one side of the receiving bin 11, then a worker pulls out a pin shaft, pulls the second receiving trough 132, the second receiving trough 132 slides along the first receiving trough 131 and extends outwards, at the moment, the worker puts the second receiving trough 132 on the side wall of the transport vehicle, an anti-falling strip 1323 blocks the upper edge of the side wall of the transport vehicle, then the worker scratches a bag containing the flax seeds, the flax seeds are poured into the enemy receiving trough, the powder dispersed in the process is collected through the powder collecting cover 21 and conveyed into the powder storage tank 22 for collection, the flax seeds fall along the second receiving trough 132 and pass through the first receiving trough 131, then fall into the receiving bin 11, the stable discharging part 111 at the bottom of the receiving bin 11 lifts the flax seeds down stably and enters into the material conveying pipeline 05, at this time, the air compression pump 04 conveys compressed air into the material conveying pipeline 05, and under the action of the compressed air, the flax seeds are conveyed into the temporary storage tank 31.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a sesame seed raw materials temporary storage device which characterized in that: the device comprises a receiving device, a powder collecting device, a temporary storage device and an air compression pump, wherein the powder collecting device is arranged on one side of the receiving device, the inlet end of the powder collecting device is positioned right above the receiving device, the temporary storage device is arranged on one side of the receiving device and is communicated with the bottom of the receiving device through a material conveying pipeline, the outlet end of the air compression pump is communicated with the material conveying pipeline through a compressed air pipeline so as to blow flax seeds entering the material conveying pipeline from the receiving device into the temporary storage device through compressed air, the receiving device comprises a receiving bin and a supporting frame body used for supporting the receiving bin, a notch is formed in the upper part of the surface of the receiving bin, which is far away from the powder collecting device, a telescopic material receiving component is arranged in the notch, the lower part of the telescopic material receiving component is connected with the lower end pin shaft of the notch, and the upper end of the telescopic material receiving component is detachably connected with the upper parts on, the bottom of receiving the storehouse is fixed and is provided with stabilizes the part of unloading, stabilizes the entry end of the part of unloading and receives the bottom intercommunication in storehouse, stabilizes the exit end and the material conveying pipeline intercommunication of the part of unloading.

2. A device as claimed in claim 1, wherein: the telescopic material receiving component comprises a first material receiving groove, a second material receiving groove, the first size of the material receiving groove is matched with the size of an opening in a receiving bin, the first lower portion of the material receiving groove is connected with an opening pin shaft, the first upper portion of the two sides of the material receiving groove is provided with a first fixing hole, the second material receiving groove is installed in the first material receiving groove, the second material receiving groove is attached to the outer wall of the first material receiving groove and the inner wall of the first material receiving groove, the first inner wall of the material receiving groove can slide relatively, and the second fixing hole is formed in the upper portion of the two sides of the second material receiving groove.

3. A device as claimed in claim 2, wherein: the first spout of having seted up on the inner wall that connects the silo both sides, the second connects and fixedly on the outer wall of silo both sides to be provided with the slider, and the slider is located the second and connects the one end of silo upper second fixed orifices, and the size and the spout phase-match of slider to can follow spout relative slip.

4. A device as claimed in claim 3, wherein: the end, far away from first fixed orifices, of the bottom of the first material receiving tank is fixedly provided with a connecting pin used for being connected with the opening and rotating, one end, far away from the first fixed orifices, of the bottom of the first material receiving tank is provided with a rectangular pit, and the pit extends to the lower side of the connecting pin.

5. A device as claimed in claim 4, wherein: the one end that second fixed orifices was kept away from to second receiving tank bottom is fixed to be provided with anti-drop strip, and anti-drop strip connects the long limit direction setting of silo along the second.

6. A device as claimed in claim 2, wherein: the upper part of the receiving bin, which is positioned at two sides of one end of the opening, is provided with a pin hole, and the pin shaft is inserted into the pin hole, the first fixing hole and the second fixing hole, so that the first material receiving groove and the second material receiving groove can be fixed with the receiving bin.

7. A device as claimed in claim 1, wherein: powder collection device includes that powder collects cover, powder storage jar, fan, and powder storage jar sets up in one side of receiving the storehouse, and the dust is collected the fixed setting of cover and is being received directly over the storehouse, and the exit end intercommunication that covers is collected through pipeline and powder to the entry end of fan, and the exit end of fan passes through pipeline and powder storage jar intercommunication.

8. A device as claimed in claim 7, wherein: the size of the powder collecting cover is matched with that of the receiving bin, and at least two powder inlet holes are formed in the surface, facing the receiving bin, of one side of the powder collecting cover.

9. A device as claimed in claim 1, wherein: the temporary storage device comprises a temporary storage tank and a conveying auger, the temporary storage tank is arranged on one side of a receiving bin, the inlet end of the temporary storage tank is communicated with the outlet end of a stable discharging component through a material conveying pipeline, the conveying auger is arranged below the temporary storage tank, and the inlet end of the conveying auger is communicated with the outlet end of the bottom of the temporary storage tank.

Images