CN210333306U - Shale shaker with hand debugging motor balance support - Google Patents
Shale shaker with hand debugging motor balance support Download PDFInfo
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- CN210333306U CN210333306U CN201920805267.6U CN201920805267U CN210333306U CN 210333306 U CN210333306 U CN 210333306U CN 201920805267 U CN201920805267 U CN 201920805267U CN 210333306 U CN210333306 U CN 210333306U
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Abstract
The utility model relates to a vibrating screen, in particular to a vibrating screen with a hand-debugging motor balance support, which comprises a screen support, a motor support and a motor arranged on the motor support, wherein an eccentric shaft is arranged on the screen support, and the end part of the eccentric shaft is connected with the motor; the motor support comprises a support, a first balance plate, a second balance plate and a balance adjuster, the first balance plate is fixed at the upper end of the support, one end of the first balance plate is hinged with one end of the second balance plate, the balance adjuster comprises a guide rod and an adjusting piece, the lower end of the guide rod penetrates through the end face of the second balance plate and then is hinged with the first balance plate below the second balance plate, and the adjuster is installed on the guide rod and pressed on the second balance plate. The motor mounted position on the vibrating screen can carry out horizontal adjustment to make the vibrating screen under different environment the motor can both be in the horizontal plane position, when the motor inclined, people as long as adjust the regulator make second balance plate parallel with the horizontal plane, the motor just can be parallel with the horizontal plane.
Description
Technical Field
The utility model relates to a shale shaker especially relates to a shale shaker with hand debugging motor balance support.
Background
The shale shaker is more common equipment in mining area and adopting sand district, and present shale shaker all is that the motor drives the eccentric shaft and rotates basically to make the screen cloth vibration, the motor drives the eccentric shaft through the conveying belt basically, and present motor is the snap-on the support, because workplace's reason, the shale shaker installation regulation is poor, takes place the slope easily, and the motor snap-on is poor on the support, thereby leads to the belt to skid easily, for example, application number: CN 201710150802.4; the patent name: a circular vibrating screen.
SUMMERY OF THE UTILITY MODEL
The utility model discloses to the poor shortcoming of the equilibrium of motor among the prior art, provide a shale shaker with hand debugging motor balance support.
In order to solve the technical problem, the utility model discloses a following technical scheme can solve:
a vibrating screen with a hand-debugging motor balance support comprises a screen support, a motor support and a motor arranged on the motor support, wherein at least three screens are arranged on the screen support, two eccentric shafts are arranged in the middle of the screen support, and the outer end parts of the two eccentric shafts are connected with the motor through a conveyor belt; the motor support includes the support, first balance plate, second balance plate and balance adjustment ware, the upper end at the support is fixed to first balance plate, the top at first balance plate is established to the second balance plate, the motor is installed on the second balance plate, the one end of first balance plate is connected with the one end of second balance plate is articulated, balance adjustment ware includes guide bar and regulating part, the guide bar lower extreme passes behind the terminal surface of second balance plate rather than the articulated first balance plate of below, the regulator is installed on the guide bar and is pressed on the second balance plate. The motor mounting position on the vibrating screen can be horizontally adjusted, so that the motor of the vibrating screen can be located on the horizontal plane position under different environments, when the motor is inclined, people only need to adjust the regulator to enable the second balance plate to be parallel to the horizontal plane, the motor can be parallel to the horizontal plane, and therefore the tension force between the motor and the eccentric shaft is guaranteed.
Preferably, the upper end face of the first balance plate is welded with an annular hook, a connecting hole is formed in the end portion of the guide rod, and the guide rod is hinged to the annular hook through the connecting hole. The annular hook is firmly fixed with the guide rod, so that the unhooking phenomenon cannot occur, and when the second balance plate swings on the first balance plate, the guide rod can also swing to prevent the guide rod from interfering the swing of the second balance plate.
Preferably, the upper end of the guide rod is a screw rod, the adjuster comprises a spring and nuts, the spring is sleeved on the guide rod and presses the second balance plate, the number of the nuts is at least two, and all the nuts are arranged on the guide rod and press the upper end of the spring. A plurality of nuts fasten and play the locking effect in the upper end of spring, prevent that the shale shaker from taking place not hard up at the vibration process nut, and the nut of screwing is pressed the spring on the balanced board of second to make the balanced board both ends keep balance of second.
Preferably, the upper end face of the first balance plate is fixed with two first mounting plates which are arranged oppositely, the lower end face of the second balance plate is fixed with two second mounting plates which are arranged oppositely, and the two first mounting plates and the two second mounting plates are connected through a pin shaft. The first balance plate and the second balance plate are convenient to mount.
Preferably, the first mounting plate and the second mounting plate are triangular plates, the long edge of the first mounting plate is connected with the first balance plate in a welded mode, and the long edge of the second mounting plate is connected with the second balance plate in a welded mode. The first and second mounting plates of the triangular plate shape can prevent the second balance plate from interfering when rotating on the first balance plate.
Preferably, the first mounting plate and the second mounting plate are semicircular plates, the straight edge of the first mounting plate is connected with the first balance plate in a welding mode, and the straight edge of the second mounting plate is connected with the second balance plate in a welding mode. The semicircular plate-shaped first and second mounting plates can prevent the second balance plate from interfering when rotating on the first balance plate.
Preferably, the upper end surface of the second balance plate is also provided with an adjusting hole penetrating through the upper surface and the lower surface of the second balance plate, a base is installed between the motor and the second balance plate, the upper end of the base is fixedly connected with the motor, and the lower end of the base is installed in the adjusting hole through a bolt. The position of the adjusting motor on the second balance plate can adjust the tightness of the conveyor belt, and meanwhile, the balance degree of the motor on the second balance plate can also be adjusted.
The utility model discloses owing to adopted above technical scheme, have apparent technological effect:
the motor mounting position on the vibrating screen can be horizontally adjusted, so that the motor of the vibrating screen can be located on the horizontal plane position under different environments, when the motor is inclined, people only need to adjust the regulator to enable the second balance plate to be parallel to the horizontal plane, the motor can be parallel to the horizontal plane, and therefore the tension force between the motor and the eccentric shaft is guaranteed.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the motor bracket of fig. 1.
Fig. 3 is a schematic structural view of the first balance board of fig. 2.
The names of the parts indicated by the numerical references in the above figures are as follows: 10-screen support, 11-motor support, 12-motor, 13-screen, 14-eccentric shaft, 15-base, 111-support, 112-first balance plate, 113-second balance plate, 114-balance adjuster, 115-annular hook, 1121-first mounting plate, 1131-second mounting plate, 1132-adjusting hole, 1141-guide rod, 1142-adjusting piece, 11421-spring, 11422-nut.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings 1-3 and examples.
Example 1
A vibrating screen with a hand-debugging motor balance support comprises a screen support 10, a motor support 11 and a motor 12 arranged on the motor support 11, wherein at least three screens 13 are arranged on the screen support 10, the number of the screens 13 is three in the embodiment, two eccentric shafts 14 are arranged in the middle of the screen support 10, two ends of each eccentric shaft 14 are arranged at two ends of the screen support 10 through bearings, the outer end parts of the two eccentric shafts 14 are connected with the motor 12 through conveyor belts, one end of each eccentric shaft 14 extends out of the screen support 10, a transmission wheel is fixed at the end part of each eccentric shaft 14, one end of each conveyor belt is wound on the transmission wheel, and the other end of each conveyor belt is wound on an output shaft; the motor bracket 11 includes a support 111, a first balance plate 112, a second balance plate 113, and a balance adjuster 114, the first balance plate 112 is welded at an upper end portion of the support 111, the second balance plate 113 is disposed above the first balance plate 112, the motor 12 is mounted on the second balance plate 113, one end of the first balance plate 112 is hinged to one end of the second balance plate 113, the balance adjuster 114 includes a guide bar 1141 and an adjusting member 1142, a lower end portion of the guide bar 1141 is hinged to the first balance plate 112 below the second balance plate 113 after passing through an end surface of the second balance plate 113, and the adjusting member 1142 is mounted on the guide bar 1141 and presses on the second balance plate 113. The motor 12 is installed at one end of the second balance plate 113 far from the balance adjuster 114, so that the motor 12 is inclined, and at this time, people can ensure that the motor 12 is parallel to the horizontal plane only by adjusting the adjuster 114.
The upper end surface of the first balance plate 112 is welded with an annular hook 115, the end of the guide rod 1141 is provided with a connecting hole, and the guide rod 1141 is hinged on the annular hook 115 through the connecting hole.
The upper end of the guide bar 1141 is a lead screw, the adjusting member 1142 includes a spring 11421 and a nut 11422, the spring 11421 is sleeved on the guide bar 1141 and pressed on the second balance plate 113, the number of the nuts 11422 is at least two, the number of the nuts 11422 is two in this embodiment, two nuts 11422 are installed on the guide bar 1141 and press the upper end of the spring 11421, and the double nuts 11422 are used for fastening the spring 11421 and preventing the spring 11421 from rebounding.
Two first mounting plates 1121 arranged oppositely are welded on the upper end face of the first balance plate 112, two second mounting plates 1131 arranged oppositely are welded on the lower end face of the second balance plate 113, and the two first mounting plates 1121 and the two second mounting plates 1131 are connected through a pin shaft. The first mounting plate 1121 and the second mounting plate 1131 are triangular plates, the long side of the first mounting plate 1121 is welded to the first balance plate 112, and the long side of the second mounting plate 1131 is welded to the second balance plate 113.
Example 2
Embodiment 2 has substantially the same features as embodiment 1, except that in embodiment 2, the first mounting plate 1121 and the second mounting plate 1131 are both semicircular plates, the straight edge of the first mounting plate 1121 is welded to the first balance plate 112, and the straight edge of the second mounting plate 1131 is welded to the second balance plate 113.
Example 3
Embodiment 3 has substantially the same features as embodiment 1, except that in embodiment 3, the upper end surface of the second balance plate 113 is further provided with an adjusting hole 1132 penetrating through the upper surface and the lower surface of the second balance plate 113, the adjusting hole 1132 in this embodiment is a long hole, four adjusting holes 1132 are arranged in a rectangular array on the second balance plate 113, a base 15 is installed between the motor 12 and the second balance plate 113, the upper end of the base 15 is fixedly connected with the motor 12, and the lower end of the base 15 is installed in the adjusting hole 1132 through a bolt.
In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.
Claims (7)
1. A vibrating screen with a hand-debugging motor balance support comprises a screen support (10), a motor support (11) and a motor (12) arranged on the motor support (11), wherein at least three screens (13) are arranged on the screen support (10), two eccentric shafts (14) are arranged in the middle of the screen support (10), and the outer end parts of the two eccentric shafts (14) are connected with the motor (12) through a conveyor belt; the method is characterized in that: the motor support (11) comprises a support (111), a first balance plate (112), a second balance plate (113) and a balance adjuster (114), the first balance plate (112) is fixed at the upper end of the support (111), the second balance plate (113) is arranged above the first balance plate (112), the motor (12) is installed on the second balance plate (113), one end of the first balance plate (112) is hinged with one end of the second balance plate (113), the balance adjuster (114) comprises a guide rod (1141) and an adjusting piece (1142), the lower end of the guide rod (1141) penetrates through the end face of the second balance plate (113) and then is hinged with the first balance plate (112) below the guide rod, and the adjusting piece (1142) is installed on the guide rod (1141) and pressed on the second balance plate (113).
2. The vibrating screen with hand-adjustable motor balance support of claim 1, wherein: the upper end face of the first balance plate (112) is welded with an annular hook (115), the end part of the guide rod (1141) is provided with a connecting hole, and the guide rod (1141) is hinged on the annular hook (115) through the connecting hole.
3. The vibrating screen with hand-adjustable motor balance support of claim 1, wherein: the upper end of the guide rod (1141) is a lead screw, the adjusting piece (1142) comprises a spring (11421) and nuts (11422), the spring (11421) is sleeved on the guide rod (1141) and pressed on the second balance plate (113), the number of the nuts (11422) is at least two, and all the nuts (11422) are arranged on the guide rod (1141) and press the upper end of the spring (11421).
4. The vibrating screen with hand-adjustable motor balance support of claim 1, wherein: the upper end face of first balance plate (112) is fixed with two relative first mounting panels (1121) that set up, and the lower terminal surface of second balance plate (113) is fixed with two relative second mounting panels (1131) that set up, and two first mounting panels (1121) and two second mounting panels (1131) pass through the round pin hub connection.
5. The vibrating screen with hand-adjustable motor balance support of claim 4, wherein: the first mounting plate (1121) and the second mounting plate (1131) are triangular plates, the long edge of the first mounting plate (1121) is connected with the first balance plate (112) in a welding mode, and the long edge of the second mounting plate (1131) is connected with the second balance plate (113) in a welding mode.
6. The vibrating screen with hand-adjustable motor balance support of claim 4, wherein: the first mounting plate (1121) and the second mounting plate (1131) are both semicircular plates, the straight edge of the first mounting plate (1121) is connected with the first balance plate (112) in a welding mode, and the straight edge of the second mounting plate (1131) is connected with the second balance plate (113) in a welding mode.
7. The vibrating screen with hand-adjustable motor balance support of claim 1, wherein: the upper end face of the second balance plate (113) is also provided with an adjusting hole (1132) penetrating through the upper face and the lower face of the second balance plate, a base (15) is installed between the motor (12) and the second balance plate (113), the upper end of the base (15) is fixedly connected with the motor (12), and the lower end of the base (15) is installed in the adjusting hole (1132) through a bolt.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920805267.6U CN210333306U (en) | 2019-05-30 | 2019-05-30 | Shale shaker with hand debugging motor balance support |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920805267.6U CN210333306U (en) | 2019-05-30 | 2019-05-30 | Shale shaker with hand debugging motor balance support |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210333306U true CN210333306U (en) | 2020-04-17 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920805267.6U Active CN210333306U (en) | 2019-05-30 | 2019-05-30 | Shale shaker with hand debugging motor balance support |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210333306U (en) |
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2019
- 2019-05-30 CN CN201920805267.6U patent/CN210333306U/en active Active
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