CN219213096U - Cutter placing plate - Google Patents

Abstract

The utility model provides a cutter placing plate, which comprises a plate body and a cutter body, wherein a group of grooves are formed in the top of the plate body, springs are fixed at the bottoms in the grooves, connecting plates positioned above the springs are placed in the grooves, a group of placing grooves for placing the cutter body are formed in the connecting plates, and protruding blocks with tops higher than the cutter body are fixed on the connecting plates; the baffle plate is connected with the baffle plate above the convex blocks in a sliding way, and a movable plate capable of lifting is arranged on the bottom surface of the baffle plate; screw holes are formed in one end of the connecting plate, one face of the plate body is connected with a set of bolts in a threaded mode, and the moving plate descends to push the protruding blocks so that the screw holes correspond to the bolts after the connecting plate descends. The utility model can effectively protect the cutter, prevent an object from directly colliding with the cutter, and avoid the cutter from being damaged.

Description

Cutter placing plate

Technical Field

The utility model relates to the technical field of placing plates, in particular to a cutter placing plate.

Background

The method comprises the steps that a machining lathe is required for machining and producing a batch of cutters to be machined, the cutters to be machined are placed on a placing plate, the cutters to be machined are taken into the machining lathe through a mechanical arm on the machining lathe, after machining is finished, the machined cutters are placed on the placing plate through the mechanical arm, and machining operation of the cutters is completed in a reciprocating mode;

and a part of the cutter is positioned outside the placing plate, so that the mechanical arm can conveniently take and place the cutter during processing; the processed cutter also needs to undergo steps such as sampling detection for many times to judge whether various information of the cutter meets the standard or not and whether the quality of the cutter meets the standard or not; and when the cutter is in sampling detection or normal storage, the cutter is exposed, and when some objects fall on the storage plate, the cutter can be directly impacted, so that the cutter is damaged.

Disclosure of Invention

The utility model discloses a cutter placing plate, which solves the problem that when a cutter is used for sampling detection, some objects fall on the placing plate and directly collide with the cutter, so that the cutter is damaged.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a cutter placing plate comprises a plate body and a cutter body, wherein a group of grooves are formed in the top of the plate body, springs are fixed at the bottoms of the grooves, connecting plates positioned above the springs are placed in the grooves, a group of placing grooves for placing the cutter body are formed in the connecting plates, and protruding blocks with tops higher than the cutter body are fixed on the connecting plates; the baffle plate is connected with the baffle plate above the convex blocks in a sliding way, and a movable plate capable of lifting is arranged on the bottom surface of the baffle plate; screw holes are formed in one end of the connecting plate, one face of the plate body is connected with a set of bolts in a threaded mode, and the moving plate descends to push the protruding blocks so that the screw holes correspond to the bolts after the connecting plate descends.

Compared with the prior art, the utility model has the following beneficial effects:

placing the processed cutters in a placing groove on the connecting plate, sliding the baffle after a batch of cutters are placed, enabling the baffle to be positioned above a group of connecting plates, then enabling the moving plate to descend, pushing the connecting plate to move downwards through the convex blocks after the moving plate descends, and enabling the connecting plate to compress the springs; when the protruding block completely enters the groove, the cutter in the connecting plate placing groove also completely enters the groove, then the bolt is rotated to enable the bolt to be in threaded connection with the screw hole on the connecting plate, the connecting plate is fixed, the cutter is positioned in the groove, and the cutter can be effectively protected by matching with the baffle and the moving plate, so that the cutter is prevented from being damaged due to impact; when the subsequent sampling detection is needed, the movable plate is restored firstly, then the baffle is slid, so that the baffle does not block a group of connecting plates, when one cutter on one connecting plate needs to be extracted, a worker rotates a corresponding bolt, after the bolt is separated from a screw hole on the connecting plate, a spring is restored to push the connecting plate to rise, other connecting plates are kept motionless, then the worker manually presses the rising connecting plate downwards, then the connecting plate is fixed by using the bolt, and when an object falls on the plate body, the cutter is positioned in a groove on the plate body, and the object cannot collide with the cutter directly; the utility model can effectively protect the cutter, prevent an object from directly colliding with the cutter, and avoid the cutter from being damaged.

Drawings

FIG. 1 is a schematic top view of the present utility model;

fig. 2 is a schematic elevational cross-sectional view of the present utility model.

In the figure: 1. a plate body; 2. a groove; 21. a spring; 22. moving the bar; 3. a connecting plate; 31. a bump; 32. a screw hole; 4. a cutter body; 5. a fixed block; 51. inserting plate; 6. a baffle; 61. a slide block; 62. a moving plate; 63. a handle; 64. a threaded column; 65. a sponge cushion; 66. a rubber bag; 7. a bolt; 8. a support leg; 81. a slot.

Detailed Description

The details of the present utility model are described below in conjunction with the accompanying drawings and examples.

As shown in fig. 1 and 2, the utility model provides a cutter placing plate, which comprises a plate body 1 and a cutter body 4, wherein a group of grooves 2 are formed in the top of the plate body 1, springs 21 are fixed at the bottoms of the grooves 2, a connecting plate 3 positioned above the springs 21 is placed in the grooves 2, a group of placing grooves for placing the cutter body 4 are formed in the connecting plate 3, and a convex block 31 with the top higher than the cutter body 4 is fixed on the connecting plate 3; the baffle plate 6 positioned above the convex blocks 31 is connected on the plate body 1 in a sliding way, and a movable plate 62 capable of lifting is arranged on the bottom surface of the baffle plate 6; screw holes 32 are formed in one end of the connecting plate 3, one face of the plate body 1 is connected with a set of bolts 7 in a threaded mode, and the moving plate 62 descends to push the protruding blocks 31 so that the screw holes 32 correspond to the bolts 7 after the connecting plate 3 descends.

As shown in fig. 1 and fig. 2, two fixing blocks 5 which are bilaterally symmetrical are fixed on the plate body 1, the baffle 6 is positioned between the two fixing blocks 5, sliding blocks 61 are fixed on two sides of the baffle 6, and the two sliding blocks 61 are respectively in sliding connection with sliding grooves formed in the two fixing blocks 5. The group of grooves 2 are all located between two fixed blocks 5, and the staff can make baffle 6 block a group of grooves 2 through slide baffle 6 to avoid the direct striking of heavy object at the top of plate body 1.

As shown in fig. 1 and 2, the top of the fixing block 5 is fixed with a plugboard 51, the bottom of the board body 1 is fixed with a supporting leg 8, and the bottom of the supporting leg 8 is provided with a slot 81 adapted to the plugboard 51. The number of the supporting legs 8 is four, and the number of the plugboards 51 on the two fixed blocks 5 is two respectively; two boards 1 can be stacked, so that the plugboard 51 on the board 1 below can be inserted into the slot 81 of the supporting leg 8 on the board 1 above, and the stability of the board 1 above is improved.

As shown in fig. 1 and 2, the top of the baffle 6 is screwed with two threaded columns 64 distributed in a left-right staggered manner, and the bottom ends of the threaded columns 64 are rotatably connected with the top of the moving plate 62. Simultaneously rotating both threaded posts 64 can move the moving plate 62 downward.

As shown in fig. 1 and 2, a sponge pad 65 is fixed on the top of the baffle 6, and a rubber bag 66 for loading an information table is fixed on the sponge pad 65. The sponge cushion 65 is arranged, so that the impact force of the heavy object on the baffle 6 can be relieved when the heavy object falls on the baffle 6; the rubber bag 66 can be filled with an information table written with the information of the cutter body 4 so as to be convenient for subsequent staff to check.

As shown in fig. 1, a handle 63 is also fixed to the baffle 6. The arrangement of the handle 63 facilitates the sliding of the baffle 6 by the staff.

As shown in fig. 2, the springs 21 in the grooves 2 are provided with a group, and the grooves 2 are slidably connected with a moving bar 22 fixed to the top of the group of springs 21, and the top of the moving bar 22 is in contact with the bottom of the connecting plate 3. The movable bar 22 is provided to facilitate the loading of the connection plate 3 and to facilitate the application of pressure by the connection plate 3 to the set of springs 21, so that the set of springs 21 is compressed.

As shown in fig. 1, two protrusions 31 are provided on the connecting plate 3, and a set of placement grooves on the connecting plate 3 are located between the two protrusions 31. The provision of two lugs 31 facilitates the movement of the plate 62 to push the connecting plate 3 downwards.

When in use, after a batch of processed cutter bodies 4 are respectively placed in the placing grooves on a group of connecting plates 3, the baffle plate 6 can be slid, so that the baffle plate 6 is positioned above the group of connecting plates 3, and then the threaded column 64 is rotated to enable the moving plate 62 to move downwards; the moving plate 62 can push the protruding block 31 to move the connecting plate 3 downwards, so as to squeeze the spring 21, and the cutter body 4 completely enters the groove 2; then the bolt 7 is rotated, so that the bolt 7 is in threaded connection with a screw hole 32 on the connecting plate 3, and the connecting plate 3 is fixed; when the subsequent heavy objects fall on the plate body 1, the baffle 6 can effectively block the heavy objects, so that the heavy objects are prevented from directly striking the cutter body 4, and the cutter body 4 can be effectively protected; when one cutter needs to be taken out for detection, the movable plate 62 can be restored, the baffle 6 is slid to enable the baffle 6 to be moved away from one group of connecting plates 3, then a corresponding bolt 7 is rotated to enable the bolt 7 to be separated from a screw hole 32 on the connecting plate 3, the spring 21 is restored to push the connecting plate 3 upwards, and a subsequent worker only needs to take out one cutter body 4 on the connecting plate 3 without operating other connecting plates 3; after the cutter body 4 is taken out, a worker can manually push the connecting plate 3 downwards and then screw the bolt 7 with the screw hole 32 on the connecting plate 3 together, so that the cutter body 4 is prevented from being exposed; when a plurality of cutter bodies 4 need to be taken, a bolt 7 can be separated from a screw hole 32 on the connecting plate 3, the connecting plate 3 is directly taken out of the groove 2 through the convex block 31 and then transferred to a designated position, and workers do not need to take the cutter bodies one by one.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. The utility model provides a board is placed to cutter, includes plate body (1) and cutter body (4), its characterized in that: a group of grooves (2) are formed in the top of the plate body (1), springs (21) are fixed at the bottoms of the grooves (2), connecting plates (3) positioned above the springs (21) are placed in the grooves (2), a group of placing grooves for placing the cutter body (4) are formed in the connecting plates (3), and protruding blocks (31) with tops higher than the cutter body (4) are fixed on the connecting plates (3); a baffle plate (6) positioned above the convex blocks (31) is connected on the plate body (1) in a sliding way, and a movable plate (62) capable of lifting is arranged on the bottom surface of the baffle plate (6); screw holes (32) are formed in one end of the connecting plate (3), one face of the plate body (1) is connected with a group of bolts (7) in a threaded mode, and the moving plate (62) descends to push the protruding blocks (31) so that the screw holes (32) correspond to the bolts (7) after the connecting plate (3) descends.

2. A tool placement plate according to claim 1, wherein: two fixing blocks (5) which are bilaterally symmetrical are fixed on the plate body (1), the baffle plate (6) is positioned between the two fixing blocks (5), sliding blocks (61) are fixed on two sides of the baffle plate (6), and the two sliding blocks (61) are respectively connected with sliding grooves formed in the two fixing blocks (5) in a sliding mode.

3. A tool placement plate according to claim 2, wherein: the top of fixed block (5) is fixed with picture peg (51), and the bottom of plate body (1) is fixed with landing leg (8), and slot (81) with picture peg (51) looks adaptation are seted up to the bottom of landing leg (8).

4. A tool placement plate according to claim 1, wherein: the top threaded connection of baffle (6) has two screw thread post (64) that are left and right sides crisscross distribution, and the bottom of screw thread post (64) is connected with the top rotation of movable plate (62).

5. A tool placement plate according to claim 1, wherein: a foam cushion (65) is fixed at the top of the baffle plate (6), and a rubber bag (66) for loading an information table is fixed on the foam cushion (65).

6. A tool placement plate according to claim 1, wherein: a handle (63) is also fixed on the baffle (6).

7. A tool placement plate according to claim 1, wherein: the springs (21) in the grooves (2) are provided with a group, the grooves (2) are slidably connected with moving strips (22) fixed with the tops of the group of springs (21), and the tops of the moving strips (22) are contacted with the bottoms of the connecting plates (3).

8. A tool placement plate according to claim 1, wherein: the two lugs (31) on the connecting plate (3) are arranged, and a group of placing grooves on the connecting plate (3) are positioned between the two lugs (31).

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