CN210080050U - Vibration unloading mechanism - Google Patents
Vibration unloading mechanism Download PDFInfo
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- CN210080050U CN210080050U CN201920802047.8U CN201920802047U CN210080050U CN 210080050 U CN210080050 U CN 210080050U CN 201920802047 U CN201920802047 U CN 201920802047U CN 210080050 U CN210080050 U CN 210080050U
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- cam
- camshaft
- shale shaker
- chassis
- vibrating
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Abstract
The utility model discloses a vibration unloading mechanism belongs to unloading technical field. Including drive arrangement, the camshaft, chassis and shale shaker, first cam and shale shaker are installed to the bottom of shale shaker and are passed through first cam setting on the chassis, install the bearing frame on the chassis of shale shaker one end, the camshaft hub connection is in the bearing frame, the one end and the drive arrangement of camshaft are connected, fixedly connected with second cam and shale shaker can move to one side of keeping away from the second cam under the effect of second cam on the camshaft, install elasticity resetting means on the chassis of one side that shale shaker and camshaft are relative. The utility model discloses can tremble the powder of blocking in the powder automatically and garrulous to save the time cost of process later, and improve measurement accuracy.
Description
Technical Field
The utility model relates to an unloading technical field of mechanism, more specifically the utility model relates to a vibration unloading mechanism that says so.
Background
Most of the existing batch feeders are used for directly feeding materials, and blocks formed by condensation in powder materials are not treated and are directly put into use; or simply by manually crushing or kneading. The time for stirring and mixing the materials is increased, and the labor cost and the time cost are increased. If the mass of the powder needs to be measured, the mass of the powder also affects the measurement precision, and the measurement difficulty is increased.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a vibration unloading mechanism is shaken the bits of broken glass automatically with the powder of blocking in the powder to save the time cost of process later, and improve measurement accuracy.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a vibration unloading mechanism, including drive arrangement, the camshaft, chassis and shale shaker, first cam and shale shaker are installed to the bottom of shale shaker and are passed through first cam setting on the chassis, install the bearing frame on the chassis of shale shaker one end, the camshaft hub connection is in the bearing frame, the one end and the drive arrangement of camshaft are connected, fixedly connected with second cam and shale shaker can be to the one side removal of keeping away from the second cam under the effect of second cam on the camshaft, install elasticity resetting means on the chassis of one side that shale shaker and camshaft are relative.
When the utility model is in operation, the material powder is placed on the filtering sieve, the driving device drives the cam shaft to rotate, the cam shaft drives the second cam to rotate, the second cam drives the vibrating sieve to move to one side far away from the second cam, meanwhile, the vibrating sieve can compress the elastic reset device in the moving process, when the second cam rotates to one side near the cam shaft, the vibrating sieve does reset motion under the action of the elastic reset device, namely moves to one side near the second cam, and the vibrating sieve reciprocates in such a way; the vibrating screen is provided with a first cam, the vibrating screen which moves in a reciprocating mode is driven by the first cam to vibrate up and down, and the vibrating screen does the combined motion of left-right reciprocating and up-down vibration. The agglomerated powder is filtered by the filter screen of the filter screen and left on the filter screen, and is shaken into fine particles to fall off in the continuous vibration. The granularity of the powder entering the next procedure is more uniform, and the reaction time in the stirring and mixing process is reduced.
Furthermore, the driving device comprises a motor, a belt and a driven belt wheel, wherein one end of the belt is sleeved on the output end of the motor, the other end of the belt is sleeved on the driven belt wheel, and the driven belt wheel is fixedly connected with one end of the cam shaft.
Furthermore, the elastic reset device comprises a side plate and a spring, the side plate is fixed on the bottom frame, one end of the spring is connected with the side plate, and the other end of the spring is connected with the vibrating screen. The second cam drives the vibrating screen to move towards one side far away from the second cam, meanwhile, the vibrating screen can compress the elastic spring in the moving process, when the second cam rotates to one side close to the cam shaft, the vibrating screen does reset motion under the action of the spring, namely, the vibrating screen moves towards one side close to the second cam, and the vibrating screen moves in a reciprocating mode.
Furthermore, the vibrating screen is composed of a rectangular shell and a filter screen arranged at the bottom of the rectangular shell, the feeding bin is installed on the rectangular shell, and the first cam is installed on the rectangular shell.
Furthermore, the number of the first cams is 4, and the first cams are respectively arranged close to four feet of the rectangular shell.
Furthermore, two second cams are fixed on the cam shaft and are respectively arranged close to the side wall of the rectangular shell.
Further, still include and add the feed bin, add the feed bin and install at the top of rectangle shell, and add the top in feed bin and install the air exhauster. The feeding bin can prevent dust generated by the agglomerated powder from flowing around when vibrating, and the air exhauster can suck away the dust, thereby reducing dust pollution in the feeding process.
Compared with the prior art, the utility model beneficial effect who has is:
1. the utility model discloses a drive arrangement drives the camshaft rotation, and the camshaft drives the second cam rotation, and the second cam drives the shale shaker to move to one side of keeping away from the second cam, and simultaneously, the shale shaker can compress the elasticity resetting means in the in-process that removes, and when the second cam rotated to one side of being close to the camshaft, the shale shaker did the motion of resetting under the effect of elasticity resetting means and moved to one side of being close to the second cam promptly, and the shale shaker so reciprocating motion; the vibrating screen is provided with a first cam, the vibrating screen which moves in a reciprocating mode is driven by the first cam to vibrate up and down, and the vibrating screen does the combined motion of left-right reciprocating and up-down vibration. The agglomerated powder is filtered by the filter screen of the filter screen and left on the filter screen, and is shaken into fine particles to fall off in the continuous vibration. The granularity of the powder entering the next procedure is more uniform, and the reaction time in the stirring and mixing process is reduced. The powder metering is more accurate, larger impurities contained in the powder can be removed, and the feeding purity is improved.
2. The utility model discloses a add the feed bin and can make the powder of blocking can not be elegant everywhere when the vibration, and the updraft ventilator can siphon away the dust, reduces to throw material in-process dust pollution.
Drawings
Fig. 1 is an overall schematic view of a vibration blanking mechanism of the present invention;
fig. 2 is a schematic structural diagram of a first cam of a vibration blanking mechanism of the present invention;
fig. 3 is a schematic structural view of a vibration blanking mechanism of the present invention;
fig. 4 is a schematic structural diagram of a camshaft of a vibration blanking mechanism of the present invention.
The labels in the figure are: 1-motor, 2-bottom frame, 3-vibrating screen, 4-feeding bin, 5-driven belt wheel, 6-camshaft, 7-bearing seat, 8-rectangular shell, 9-first cam, 10-spring, 11-filter screen, 12-second cam, 13-side plate and 14-belt.
Detailed Description
The present invention will be further described with reference to the following examples, which are only some, but not all, of the examples of the present invention. Based on the embodiments in the present invention, other embodiments used by those skilled in the art without creative work belong to the protection scope of the present invention.
Example 1:
as shown in fig. 1 and 3, a vibrating blanking mechanism comprises a driving device, a cam shaft 6, a bottom frame 2 and a vibrating screen 3, as shown in fig. 2, a first cam 9 is installed at the bottom of the vibrating screen 3, the vibrating screen 3 is arranged on the bottom frame 2 through the first cam 9, a supporting plate is installed on the upper surface of the bottom frame 2 of the embodiment, and the first cam 9 is installed on the supporting plate. A bearing seat 7 is installed on the chassis 2 at one end of the vibrating screen 3, as shown in fig. 4, the camshaft 6 is connected in the bearing seat 7 in a shaft mode, one end of the camshaft 6 is connected with the driving device, the second cam 12 is fixedly connected to the camshaft 6, the vibrating screen 3 can move towards one side far away from the second cam 12 under the action of the second cam 12, and an elastic resetting device is installed on the chassis 2 at one side, opposite to the camshaft 6, of the vibrating screen 3.
In this embodiment, the driving device includes a motor 1, a belt 14 and a driven pulley 5, one end of the belt 14 is sleeved on the output end of the motor 1, the other end of the belt 14 is sleeved on the driven pulley 5, and the driven pulley 5 is fixedly connected with one end of the cam shaft 6.
In this embodiment, the vibrating screen 3 is composed of a rectangular housing 8 and a filter screen 11 disposed at the bottom of the rectangular housing 8, the feeding bin 4 is mounted on the rectangular housing 8, and the first cam 9 is mounted on the rectangular housing 8.
Preferably, the number of the first cams 9 is 4, and the first cams are respectively arranged near four feet of the rectangular shell 8.
Preferably, two second cams 12 are fixed on the camshaft 6, and the two second cams 12 are respectively arranged close to the side walls of the rectangular housing 8.
The utility model discloses at the during operation, the material powder is put on filtering sieve, drive arrangement drives camshaft 6 rotatory, camshaft 6 drives second cam 12 rotatory, second cam 12 drives shale shaker 3 and moves to one side of keeping away from second cam 12, simultaneously, shale shaker 3 can compress the elasticity resetting means in the process of removing, when second cam 12 rotated to one side of being close to camshaft 6, shale shaker 3 did the motion of resetting under the effect of elasticity resetting means and moved to one side of being close to second cam 12 promptly, shale shaker 3 so reciprocating motion; the vibrating screen 3 is provided with a first cam 9, the vibrating screen 3 which moves in a reciprocating manner is driven by the first cam 9 to vibrate up and down, and the vibrating screen 3 performs the combined motion of left-right reciprocating and up-down vibration. The agglomerated powder is filtered by the filter screen of the filter screen and is left on the filter screen 11, and is shaken into fine particles to fall off in the continuous vibration. The granularity of the powder entering the next procedure is more uniform, and the reaction time in the stirring and mixing process is reduced.
Example 2:
as shown in fig. 2, the present embodiment is further optimized based on embodiment 1, and the present embodiment focuses on explaining the improvement compared with embodiment 1, and the same points are not repeated, in the present embodiment, the elastic resetting device includes a side plate 13 and a spring 10, the side plate 13 is fixed on the chassis 2, one end of the spring 10 is connected with the side plate 13, and the other end of the spring 10 is connected with the vibrating screen 3. The second cam 12 drives the vibrating screen 3 to move towards the side far away from the second cam 12, meanwhile, the vibrating screen 3 compresses the elastic spring 10 in the moving process, when the second cam 12 rotates to the side close to the cam shaft 6, the vibrating screen 3 does reset motion under the action of the spring 10, namely, moves towards the side close to the second cam 12, and the vibrating screen 3 reciprocates in such a way.
Example 3:
as shown in fig. 1, the present embodiment is further optimized on the basis of embodiment 1, and the present embodiment focuses on explaining the improvement compared with embodiment 1, and the same points are not described again, in the present embodiment, the present embodiment further includes a feeding bin 4, the feeding bin 4 is installed on the top of the rectangular housing 8, and the top of the feeding bin 4 is installed with an exhaust fan. The feeding bin 4 can prevent dust generated by the agglomerated powder from flowing around when vibrating, the air exhauster can suck away the dust, and the feeding bin 4 is internally provided with a dust filter to reduce dust pollution in the feeding process.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (7)
1. The utility model provides a vibration unloading mechanism, a serial communication port, including drive arrangement, camshaft (6), chassis (2) and shale shaker (3), first cam (9) and shale shaker (3) are installed to the bottom of shale shaker (3) and are set up on chassis (2) through first cam (9), install bearing frame (7) on chassis (2) of shale shaker (3) one end, camshaft (6) hub connection is in bearing frame (7), the one end and the drive arrangement of camshaft (6) are connected, fixedly connected with second cam (12) and shale shaker (3) can move to one side of keeping away from second cam (12) under the effect of second cam (12) on camshaft (6), install elasticity resetting means on chassis (2) of one side that shale shaker (3) and camshaft (6) are relative.
2. The vibrating blanking mechanism according to claim 1, wherein the driving device comprises a motor (1), a belt (14) and a driven pulley (5), one end of the belt (14) is sleeved on the output end of the motor (1), the other end of the belt (14) is sleeved on the driven pulley (5), and the driven pulley (5) is fixedly connected with one end of the cam shaft (6).
3. A vibrating blanking mechanism according to claim 1 or 2, characterised in that said elastic return means comprise a side plate (13) and a spring (10), the side plate (13) being fixed to the base frame (2), one end of the spring (10) being connected to the side plate (13) and the other end of the spring (10) being connected to the vibrating screen (3).
4. A vibratory blanking mechanism as claimed in claim 1, wherein the vibrating screen (3) is composed of a rectangular housing (8) and a filter screen (11) arranged at the bottom of the rectangular housing (8), the first cam (9) being mounted on the rectangular housing (8).
5. A vibratory blanking mechanism as claimed in claim 4, wherein said first cams (9) are 4 in number and are arranged adjacent to four feet of the rectangular housing (8), respectively.
6. A vibrating blanking mechanism according to claim 4, characterised in that two second cams (12) are fixed to the cam shaft (6), the two second cams (12) being arranged in each case against a side wall of the rectangular housing (8).
7. The vibrating blanking mechanism of claim 4, further comprising a feeding bin (4), wherein the feeding bin (4) is installed on the top of the rectangular outer shell (8), and an exhaust fan is installed on the top of the feeding bin (4).
Priority Applications (1)
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CN201920802047.8U CN210080050U (en) | 2019-05-30 | 2019-05-30 | Vibration unloading mechanism |
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CN201920802047.8U CN210080050U (en) | 2019-05-30 | 2019-05-30 | Vibration unloading mechanism |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111702952A (en) * | 2020-06-29 | 2020-09-25 | 李彦红 | Can realize full-automatic concrete mixing equipment of ratio |
CN112246603A (en) * | 2020-09-17 | 2021-01-22 | 王亨康 | Sieving mechanism is used in industrial chemicals processing |
CN113318964A (en) * | 2021-05-13 | 2021-08-31 | 刘永庆 | Raw and other materials sieving mechanism before flour makes |
-
2019
- 2019-05-30 CN CN201920802047.8U patent/CN210080050U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111702952A (en) * | 2020-06-29 | 2020-09-25 | 李彦红 | Can realize full-automatic concrete mixing equipment of ratio |
CN112246603A (en) * | 2020-09-17 | 2021-01-22 | 王亨康 | Sieving mechanism is used in industrial chemicals processing |
CN113318964A (en) * | 2021-05-13 | 2021-08-31 | 刘永庆 | Raw and other materials sieving mechanism before flour makes |
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