CN214864347U - A mounting structure for demagnetizing machine - Google Patents

Abstract

The utility model provides a mounting structure for removing magnetism machine, includes the mainboard, with the support frame of being connected of mainboard lower extreme, be provided with on the mainboard with two mounting grooves that remove magnetism machine both ends and will remove magnetism machine both ends and be fixed in two that correspond fixing piece in the mounting groove, the pulley is installed to the lower extreme of support frame. In this scheme design, remove that the magnetism machine is whole to be the type of falling U structure, remove and be provided with the conveyer belt between magnetism machine and the mainboard and be used for conveying the material. This device adopts the mounting structure who is independent of except that the magnetism machine, and this structural support is stable, occupation space is less and portable, can be used to in the open air or the limited scene in place, also can be used to in the factory building, and the suitability is strong, has good development prospect.

Description

A mounting structure for demagnetizing machine

Technical Field

The utility model belongs to a remove magnetism equipment technical field, concretely relates to a mounting structure for removing magnetism machine.

Background

Since the lithium ion battery is commercialized by sony using hard carbon as a negative electrode material in 1991, the carbonaceous material has the advantages of low lithium intercalation potential, relatively low price, abundant and easily available reserves and the like, and is widely used as the negative electrode material of the lithium ion battery.

The graphite material is a mainstream cathode material at present due to the outstanding advantages of high reversible specific capacity, high first-time efficiency, voltage platform and the like, and still is an important candidate for a cathode material of a lithium ion battery in a future period.

Graphite is the mainstream choice in the current market as the negative electrode material of power batteries, and the requirements for the graphite negative electrode in the production of the power batteries are also higher, and the graphite material is generally required to have high energy density and good rate capability. Researchers have found that by mixing graphite particles of different average particle sizes, a cathode with a higher compacted density can be obtained by preparing a mixed cathode, thereby increasing the energy density of the cathode. The production steps of the graphite cathode comprise mixing natural spherical graphite and asphalt, heating and dipping under preset pressure after uniform mixing, softening and flowing the asphalt to fill the pores in the natural spherical graphite, cooling to obtain an intermediate product, graphitizing the intermediate product, and performing crushing, demagnetizing, grading and other steps to obtain the graphite cathode material.

The application number is CN 201720527609.3's document discloses an electromagnetism magnetic separator de-ironing, including electromagnetism magnetic separator de-ironing body, electromagnetism magnetic separator de-ironing body bottom is equipped with the clearance mouth, still includes a cleaning device that can clear up the magnetic foreign matter automatically, cleaning device includes side frame, negative pressure pipeline, negative pressure conveyor and roots's fan, negative pressure conveyor locates in the side frame, negative pressure pipeline's pan feeding mouth passes through negative pressure pipeline with clearance mouth intercommunication, negative pressure conveyor's discharge mouth department sealing connection has a material receiving bucket, negative pressure conveyor's gas vent with roots's fan's air intake connection. The utility model has the advantages of easy operation, can alleviate workman intensity of labour and can raise the efficiency again. But the device has a complex structure, cannot move and is greatly limited by sites.

SUMMERY OF THE UTILITY MODEL

To the problem that exists, the utility model aims at providing a mounting structure for removing magnetism machine, this device adopt to be independent of the mounting structure who removes magnetism machine, and this structural support is stable, occupation space is less and portable, can be used to in the open air or the limited scene in place, also can be used to in the factory building, and the suitability is strong, has good development prospect.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

the utility model provides a mounting structure for removing magnetism machine, includes the mainboard, with the support frame of being connected of mainboard lower extreme, be provided with on the mainboard with two mounting grooves that remove magnetism machine both ends and will remove magnetism machine both ends and be fixed in two that correspond fixing piece in the mounting groove, the pulley is installed to the lower extreme of support frame. In this scheme design, remove that the magnetism machine is whole to be the type of falling U structure, remove and be provided with the conveyer belt between magnetism machine and the mainboard and be used for conveying the material.

As the utility model discloses a further preferred, the mounting is including passing the screw thread passageway of seting up on the mounting groove lateral wall extends to fixing stud on the mainboard lateral surface, cup joint in fixing stud is located the fixation nut of the one end of mainboard lateral surface and set up in fixing stud keeps away from fixing nut one end with the first elastic block of demagnetizer side surface butt. In the design of the scheme, the first elastic block is arranged to reduce the abrasion between the fixing stud and the surface of the demagnetizer and also used for increasing the friction coefficient of a contact surface, so that the reinforcing effect of the fixing stud is enhanced.

As a further preferred aspect of the present invention, the fixing member includes an elastic strip installed on the inner side wall of the groove side wall of the mounting groove different from the groove side wall of the screw channel and away from the demagnetizer, the elastic strip abutting against the side surface of the first elastic block. In the design of the scheme, the second elastic strips are arranged on the symmetrical side walls of the groove, and the effect of the second elastic strips is almost the same as that of the first elastic blocks.

As a further preferred aspect of the present invention, the fixing member includes a second elastic block installed on the bottom surface of the installation groove. In this scheme design, the setting of second elastic block then is used for avoiding when the mounting is not installed the both ends that remove the magnetism machine directly fall into the mounting groove in and collide with the tank bottom surface for remove magnetism machine or mounting groove because of the collision impaired.

As a further preference of the utility model, the mainboard lower extreme is provided with the dead structure of lock, the dead structure of lock include with under the mainboard bottom surface connect and the hypomere be provided with the external screw thread the bracing piece, seted up with bracing piece adaptation and groove side are provided with the installation piece of internal screw thread second mounting groove. In this scheme design, the holistic length of dead structure of lock is adjusted in order to realize locking/not dead two kinds of states of lock to the degree of depth of adjusting the bracing piece in the mounting groove.

As a further preferred aspect of the present invention, the lower end of the mounting block is provided with a base having a lower bottom surface connected with a protruding block. In this scheme design, the base that the bottom was widened is used for the increase with the area of contact on ground, makes braking time shorten, and the bellied a plurality of protruding pieces in bottom both had played the effect of buffering, also was used for increasing the frictional force of base.

As a further preference of the present invention, the side of the mounting block is provided with a slot adapted to the control rod for controlling the depth of the support rod in the second mounting groove. In this scheme design, the slot is used for inserting the control lever with the rotating installation piece, plays laborsaving effect.

As a further preference of the present invention, the middle portion of the main board is provided with a weight reduction opening for reducing the weight of the device, thereby enhancing the portability of the device.

As a further preferred aspect of the present invention, the main board is located the weight reduction opening is different from a holding groove for holding spare parts is provided to the side of the both ends of the mounting groove.

As a further preferred aspect of the present invention, the side of the main board is provided with a wire placing plate for placing the power line of the demagnetizer.

To sum up, the utility model discloses following beneficial effect has:

this device adopts independent demagnetizer mounting structure, and this structural support is stable, occupation space is less, and the pulley that sets up has strengthened the portability for this device.

The mounting structure of this device and the connection that removes the magnetism machine are firm and quick detachable, can be used to in the open air or the limited scene in place, also can be used to in the factory building, and the suitability is strong, has good development prospect.

The device is provided with the locking structure matched with the pulley, so that the device is more convenient to move and brake, and is simple to operate, time-saving and labor-saving.

Drawings

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

Fig. 2 is a schematic structural diagram of the fixing member of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a schematic structural diagram of the dead lock structure of the present invention.

The device comprises a main board 10, a mounting groove 101, a placing groove 102, a spare accessory 102a, a weight reduction opening 103, a threaded passage 101a, a fixing piece 11, a fixing stud 111, a fixing nut 112, a first elastic block 113, an elastic strip 114, a second elastic block 115, a support frame 12, a pulley 121, a locking structure 13, a support rod 131, an external thread 131a, a mounting block 132, a second mounting groove 132a, a base 133, a protruding block 134, a slot 135, a control rod 136, a wire placing plate 14, a wire placing port 141, a magnetism removing machine 2, a conveyor belt 3 and a material 4.

Detailed Description

Examples

As shown in fig. 1, the mounting structure for a demagnetizing machine provided in this embodiment includes a main board 10 and a supporting frame 12 connected to a lower end of the main board 10, wherein the main board 10 is provided with two mounting grooves 101 corresponding to two ends of the demagnetizing machine 2, and fixing members 11 for fixing the two ends of the demagnetizing machine 2 in the two corresponding mounting grooves 101, and a pulley 121 is mounted at a lower end of the supporting frame 12. In this embodiment, the whole demagnetizer 2 is in an inverted U-shaped structure, and a conveyor belt 3 is disposed between the demagnetizer 2 and the main board 10 for conveying the material 4.

In this embodiment, as shown in fig. 2 and 3, the fixing element 11 includes a fixing stud 111 passing through a threaded passage 101a formed in a side wall of the mounting groove 101 and extending to an outer side surface of the main board 10, a fixing nut 112 sleeved on an end of the fixing stud 111 located on the outer side surface of the main board 10, and a first elastic block 113 disposed at an end of the fixing stud 111 away from the fixing nut 112 and abutting against a side end surface of the demagnetizer 2. The fixing member 11 includes an elastic strip 114 mounted on an inner side wall of the mounting groove 101 different from a side wall of the groove with the threaded passage 101a and abutting against a side end surface of the demagnetizing machine 2 away from the first elastic block 113. The fixing member 11 includes a second elastic block 115 installed on the bottom surface of the installation groove 101. In the present embodiment, the first elastic block 113 is provided not only to reduce the wear of the fixing stud 111 and the surface of the demagnetizer 2, but also to increase the friction coefficient of the contact surface, thereby enhancing the reinforcing effect of the fixing stud 111. The second elastic strip 114 is arranged on the symmetrical side wall of the groove, the played effect is almost the same as that of the first elastic block 113, and the second elastic block 115 is arranged to prevent the two ends of the demagnetizer 2 from directly falling into the mounting groove 101 and colliding with the bottom surface of the groove when the fixing member 11 is not mounted, so that the demagnetizer 2 or the mounting groove 101 is damaged due to collision. The first elastic block 113, the second elastic strip 114 and the second elastic block 115 of the present embodiment may be made of elastic rubber or other common similar materials, and the mounting manner may be selected by bonding or other manners.

In this embodiment, as shown in fig. 1 and 4, a dead-lock structure 13 is disposed at a lower end of the main board 10, and the dead-lock structure 13 includes a supporting rod 131 connected to a lower bottom surface of the main board 10 and having an external thread 131a at a lower section thereof, and an installation block 132 having a second installation groove 132a adapted to the supporting rod 131 and having an internal thread at a side surface thereof. The lower end of the mounting block 132 is provided with a base 133 having a lower bottom surface to which a protrusion block 134 is connected. The side of the mounting block 132 is provided with a slot 135 fitted with a control rod 136 for controlling the depth of the support rod 131 in the second mounting groove 132 a. The locking structure of this embodiment can adjust the overall length of the locking structure by adjusting the depth of the supporting rod 131 in the second mounting groove 132a to realize two locking/unlocking states, the base 133 with widened bottom is used for increasing the contact area with the ground, so that the braking time is shortened, and the plurality of protruding blocks 134 protruding at the bottom play a role in buffering and also increase the friction force of the base. The slot 135 is used to insert the control rod 136 to rotate the mounting block 132, which saves labor.

In the present embodiment, as shown in fig. 4, a weight-reducing opening 103 is opened in the middle of the main board 10 for reducing the weight of the mounting structure and enhancing the mobile portability thereof. The main board 10 is provided with a placement groove 102 for placing a spare part 102a on the side surface of the weight-reduction opening 103 different from the two ends of the installation groove 101.

In this embodiment, as shown in fig. 3, a wire placing plate 14 having a wire placing port 141 for placing a power line of the demagnetizer 2 is opened at a side end of the main board 10.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a mounting structure for removing magnetism machine, its characterized in that, includes mainboard (10), with support frame (12) of being connected of mainboard (10) lower extreme, be provided with on mainboard (10) with two mounting grooves (101) that remove magnetism machine (2) both ends and incite somebody to action it is fixed in corresponding two to remove magnetism machine (2) both ends mounting (11) in mounting groove (101), pulley (121) are installed to the lower extreme of support frame (12).

2. The mounting structure for the demagnetizing machine according to claim 1, wherein the fixing member (11) comprises a fixing stud (111) penetrating through a threaded passage (101 a) formed in a slot side wall of the mounting slot (101) and extending to an outer side surface of the main board (10), a fixing nut (112) sleeved at one end of the fixing stud (111) located at the outer side surface of the main board (10), and a first elastic block (113) arranged at one end of the fixing stud (111) far away from the fixing nut (112) and abutted against a side end surface of the demagnetizing machine (2).

3. The mounting structure for a demagnetizing machine according to claim 2, wherein the fixing member (11) comprises an elastic strip (114) which is mounted on an inner side wall of the mounting groove (101) different from a groove side wall provided with the threaded passage (101 a) and is abutted against a side end surface of the demagnetizing machine (2) away from the first elastic block (113).

4. A mounting structure for a demagnetizing machine according to claim 2, wherein the fixing member (11) comprises a second elastic piece (115) mounted on the bottom surface of the installation groove (101).

5. The mounting structure for the demagnetizing machine according to claim 1, wherein a locking structure (13) is arranged at the lower end of the main plate (10), the locking structure (13) comprises a support rod (131) connected with the lower bottom surface of the main plate (10) and provided with an external thread (131 a) at the lower section thereof, and a mounting block (132) provided with a second mounting groove (132 a) adapted to the support rod (131) and provided with an internal thread at the side surface thereof.

6. The mounting structure for a demagnetizing machine according to claim 5, wherein the lower end of the mounting block (132) is provided with a base (133) having a lower bottom surface to which a protruding block (134) is attached.

7. The mounting structure for a demagnetizing machine according to claim 5, wherein a side surface of the mounting block (132) is provided with an insertion groove (135) adapted to the control rod (136) for controlling the depth of the support rod (131) in the second mounting groove (132 a).

8. The mounting structure for a demagnetizing machine as defined in claim 1, wherein a weight-reduction opening (103) is opened in a middle portion of the main plate (10).

9. The mounting structure for the demagnetizing machine according to claim 8, wherein a placement groove (102) for placing a spare part (102 a) is formed in the side surface of the main board (10) at the two ends of the weight-reduction opening (103) different from the mounting groove (101).

10. The mounting structure for the demagnetizer as recited in claim 1, wherein a wire placing plate (14) provided with a wire placing port (141) for placing a power supply wire of the demagnetizer (2) is opened at a side end of the main board (10).

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