CN214080874U - Feed hopper of numerical control tool grinding machine - Google Patents

Abstract

The utility model discloses a feeding hopper of a numerical control tool grinder, which comprises a hopper body and a guide sloping plate positioned in the hopper body, wherein the bottom of a front wall plate of the hopper body is provided with a discharge hole, the bottom end of the guide sloping plate is fixedly connected with a vertical inserting plate arranged in parallel with the front wall plate, the lower end of the vertical inserting plate is provided with vertical comb teeth strips, the lower part of the vertical inserting plate is provided with a horizontal upper inserting plate and a lower inserting plate which are parallel up and down, the end parts of the upper inserting plate and the lower inserting plate are respectively provided with comb teeth strips, the end parts of the comb teeth strips of the upper inserting plate are provided with an upper inclined plane inclined downwards, the comb teeth strips at the lower end of the vertical inserting plate are downwards and sequentially inserted between the comb teeth strips of the upper inserting plate and between the comb teeth strips of the lower inserting plate, the upper inserting plate and the lower inserting plate are respectively and fixedly connected with an upper inserting plate driving mechanism and a lower inserting plate driving the upper inserting plate and the lower inserting plate to move back and forth towards the front wall plate, the discharge hole is arranged at the front end of the lower inserting plate for the lower inserting plate to stretch out, the inclined plate driving mechanism driving the guide sloping plate to move along the plane where the guide sloping plate is connected with the guide sloping plate, the material guiding inclined plate drives the upper inserting plate to move when moving.

Description

Feed hopper of numerical control tool grinding machine

Technical Field

The utility model relates to a numerical control tool grinder feeder hopper belongs to the grinding device technical field in the machining.

Background

The grinding machine is a device for grinding the surface of a workpiece, and is mainly used for grinding other profiles of the workpiece, such as a high-precision plane, an inner cylindrical surface, an outer cylindrical surface, a conical surface, a spherical surface, a threaded surface and the like.

The numerical control tool grinding machine generally comprises a rack, wherein a feeding mechanism, a material pushing mechanism, a clamping mechanism and a grinding mechanism are arranged on the rack, when the numerical control tool grinding machine is used, a bar is fed into the feeding mechanism, the bar enters the material pushing mechanism from the feeding mechanism and is fed into the clamping mechanism under the pushing action of the material pushing mechanism, and the bar is clamped by the clamping mechanism and then is ground by the grinding mechanism. The feed mechanism of prior art's grinding machine is the hopper, is equipped with the inclined plane that supplies the bar landing in this kind of hopper, and the opening below the hopper supplies the bar to discharge, and the size can not be adjusted according to the diameter of bar to this kind of hopper, and unsuitable major diameter's bar to the less bar of diameter, the condition of a plurality of bars discharge simultaneously often can appear during the feeding, needs artifical continuous unnecessary bar of removing, influences machining efficiency, is unfavorable for automated production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can be fit for the bar of different diameters and use, prevent a plurality of bars simultaneous discharge's numerical control tool grinding machine feeder hopper for solve the technical problem of the bar of the fixed, different diameters of numerical control tool grinding machine feeder hopper size of prior art.

The utility model adopts the following technical scheme: a feeding hopper of a numerical control tool grinding machine comprises a hopper body enclosed by a front wall plate, a rear wall plate, a left wall plate and a right wall plate, wherein a base is arranged at the bottom of the hopper body, a guide inclined plate for guiding bars is arranged in the hopper body, the guide inclined plate inclines downwards from the rear wall plate to the front wall plate, a discharge hole is formed in the bottom of the front wall plate, a vertical insertion plate parallel to the front wall plate is fixedly connected to the bottom end of the guide inclined plate, a comb rack bar vertically arranged is arranged at the lower end of the vertical insertion plate, an upper insertion plate and a lower insertion plate horizontally arranged are arranged below the vertical insertion plate, comb rack bars horizontally arranged are respectively arranged at one ends of the upper insertion plate and the lower insertion plate close to the front wall plate, an upper inclined plane is arranged at one end of the comb rack bars of the upper insertion plate close to the front wall plate, the upper inclined plane inclines downwards, the comb rack bars at the lower end of the vertical insertion plate are downwards and sequentially inserted into gaps between the comb rack bars of the upper insertion plate and gaps between the comb rack bars of the lower insertion plate, go up picture peg and one side that lower picture peg is close to back wallboard fixedly connected with goes up picture peg actuating mechanism and lower picture peg actuating mechanism respectively, go up picture peg actuating mechanism and last picture peg actuating mechanism drive respectively and go up picture peg and picture peg forward the wallboard round trip movement down, the discharge gate is seted up and is supplied down the picture peg to stretch out at lower picture peg front end, goes up and is connected with mounting panel and lower mounting panel respectively on picture peg actuating mechanism and the lower picture peg actuating mechanism, and the lower mounting panel is fixed on the base, goes up the fixedly connected with connecting block between mounting panel and the guide swash plate, be connected with swash plate actuating mechanism on the guide swash plate, the guide swash plate is along the inclined plane slant rectilinear movement at guide swash plate place under swash plate actuating mechanism.

The inclined plate driving mechanism comprises a fixed plate fixed on the hopper body and a lead screw vertically penetrating through the fixed plate, the lead screw is in sliding fit with the fixed plate, the lead screw is parallel to the material guide inclined plate, the fixed plate is perpendicular to the material guide inclined plate, limiting sleeves are respectively fixed at the positions of the two sides of the fixed plate on the lead screw, an external thread spirally assembled in the connecting block is arranged at one end of the lead screw, and a knob is fixed at the other end of the lead screw.

The guide support mechanism is arranged between the fixed plate and the guide inclined plate and comprises a guide rod vertically fixed on the fixed plate and a guide block fixed on the bottom surface of the guide inclined plate, a guide groove in sliding fit with the guide rod is formed in the guide block, and the guide rod is parallel to the screw rod.

The guide supporting mechanisms are arranged in two groups, and the two groups of guide supporting mechanisms are symmetrically arranged on two sides of the screw rod.

Go up picture peg actuating mechanism and picture peg actuating mechanism down and be first cylinder and second cylinder respectively, the cylinder body of first cylinder is fixed on last mounting panel, the piston rod tip fixedly connected with upper junction plate of first cylinder, it fixes on the upper junction plate to go up the picture peg, the cylinder body of second cylinder is fixed under on the mounting panel, the connecting plate under the piston rod tip fixedly connected with of second cylinder, the picture peg is fixed under on the connecting plate.

A first guide mechanism is arranged between the upper mounting plate and the upper connecting plate and comprises a first guide rail fixed on the upper mounting plate and a first sliding block fixed on the upper connecting plate, the first guide rail is positioned above the upper connecting plate, the first sliding block is fixed on the upper surface of the upper connecting plate, and the first sliding block is in sliding fit with the first guide rail; and a second guide mechanism is arranged between the lower mounting plate and the lower connecting plate, the second guide mechanism comprises a second guide rail fixed on the lower mounting plate and a second sliding block fixed on the lower connecting plate, the second guide rail is positioned below the lower connecting plate, the second sliding block is fixed on the lower surface of the lower connecting plate, and the second sliding block is in sliding fit with the second guide rail.

One end, close to the front wall plate, of the comb teeth of the upper inserting plate is also provided with a lower inclined surface which inclines upwards, and the lower inclined surface is positioned below the upper inclined surface.

The fixed plate is located the below position of back wallboard, the vertical extension's that the interval set up slot is seted up respectively on the mutual close to of preceding wallboard and back wallboard slot interpolation, and the both sides cartridge is in the slot of preceding wallboard and the slot of back wallboard respectively around the baffle, and the lower limb of baffle coincide overlap joint is on guide swash plate upper surface.

The slots on the front wall plate and the rear wall plate are uniformly distributed.

An outer protection plate is arranged below the rear wall plate on the hopper body, and the upper end of the outer protection plate is fixedly connected with the fixing plate through a bolt.

The utility model has the advantages that: when the utility model is used, the bar material enters from the opening above the hopper body, the bar material rolls along the guide sloping plate and falls between the vertical inserting plate and the front wall plate and is caught by the upper inclined plane at the end part of the upper inserting plate, the first driving mechanism acts to drive the upper inserting plate to move away from the front wall plate, so that the gap between the upper inserting plate and the front wall plate is larger than the diameter of the bar material, the bar material falls onto the lower inserting plate, at the moment, the first driving mechanism acts immediately to drive the upper inserting plate to move towards the front wall plate, the bar material above is prevented from falling, and only one bar material is ensured to fall at each time; after the bar falls into the lower inserting plate, the second driving mechanism acts to drive the lower inserting plate to move, and the end part of the lower inserting plate extends out of the discharge hole to send out the bar. When the bars with different diameters are discharged, the inclined plate driving mechanism is utilized to drive the material guide inclined plate to move, so that the distance between the bottom of the material guide inclined plate and the front wall plate is changed, the bars with different diameters fall down, and when the material guide inclined plate moves, the connecting block drives the upper mounting plate, the first driving mechanism and the lower inserting plate to move synchronously, so that the bars with different diameters can fall down smoothly. The utility model discloses can adjust the interval of perpendicular picture peg and preceding wallboard that guide swash plate bottom is connected according to the bar of different diameters to be fit for the bar unloading of different diameters, only next bar at every turn can be guaranteed moreover, do not need artifical arrangement bar, degree of automation is high.

Preferably, the inclined plate driving mechanism adopts a screw rod nut structure, the screw rod is rotated by the adjusting knob, the limiting sleeve limits the axial movement of the screw rod, and the connecting block moves axially along the screw rod due to the threaded fit of the connecting block and the screw rod, and the connecting block drives the material guide inclined plate, the upper mounting plate, the first driving mechanism and the lower inserting plate to move synchronously while moving.

Preferably, the guide supporting mechanism supports the guide inclined plate, and meanwhile, the guide inclined plate is limited in movement, so that linear motion of the guide inclined plate is guaranteed.

Preferably, the guide supporting mechanisms symmetrically arranged on two sides of the screw rod support and limit the guide inclined plate more stably.

Preferably, the upper inserting plate driving mechanism and the lower inserting plate driving mechanism both adopt air cylinders, and have the advantages of small volume, convenience in installation and automatic control.

Preferably, the first guide mechanism and the second guide mechanism respectively guide and limit the movement of the upper inserting plate and the lower inserting plate, and the first guide mechanism and the second guide mechanism both adopt a structure that a sliding block and a guide rail are in sliding fit, so that the device has the characteristics of simple structure, high positioning and guiding precision and convenience in use.

Preferably, when the bar unloading of different length, insert the slot of different positions with the baffle for interval between baffle and left wallboard or the right wallboard suits with the length of bar, makes the utility model discloses adapt to the bar of multiple length specification.

Drawings

FIG. 1 is a perspective view of the feed hopper of a CNC tool grinder according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the feed hopper of the CNC tool grinder of FIG. 1;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a perspective view of a second angle of the feed hopper of the numerically controlled tool grinding machine of FIG. 1;

FIG. 5 is a perspective view of a third angle of the feed hopper of the numerically controlled tool grinding machine of FIG. 1;

FIG. 6 is a schematic structural view of the vertical insertion plate in FIG. 2;

FIG. 7 is a schematic structural view of the upper plug board in FIG. 2;

fig. 8 is a schematic structural view of the lower insert plate in fig. 2.

In the figure: 1-hopper body, 1.1-front wall plate, 1.2-rear wall plate, 1.3-left wall plate, 1.4-right wall plate, 2-base, 3-guide inclined plate, 4-vertical insertion plate, 5-upper insertion plate, 5.1-upper inclined surface, 5.2-lower inclined surface, 6-lower insertion plate, 7-upper mounting plate, 8-lower mounting plate, 9-connecting block, 10-fixing plate, 11-screw rod, 11.1-knob, 12-limiting sleeve, 13-guide rod, 14-guide block, 15-first air cylinder, 16-second air cylinder, 17-upper connecting plate, 18-lower connecting plate, 19-first slide block, 20-first guide rail, 21-second slide block, 22-second guide rail, 23-slot, 24-partition plate and 25-outer protection plate.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The utility model discloses a numerically controlled tool grinder feeder hopper is shown in fig. 1 to 5, the numerically controlled tool grinder feeder hopper of this embodiment includes a hopper body 1 enclosed by a front wall plate 1.1, a rear wall plate 1.2, a left wall plate 1.3 and a right wall plate 1.3, a base 2 is arranged at the bottom of the hopper body 1, a guide inclined plate 3 for guiding bars is arranged in the hopper body 1, the guide inclined plate 3 is inclined downwards from the rear wall plate 1.2 to the front wall plate 1.3, a discharge hole is arranged at the bottom of the front wall plate 1.1, a vertical insertion plate 4 with a lower end arranged in parallel with the front wall plate is fixedly connected at the bottom end of the guide inclined plate 3, a comb rack bar with a vertical arrangement is arranged at the lower end of the vertical insertion plate 4, the structure of the vertical insertion plate 4 is shown in fig. 6, an upper insertion plate 5 and a lower insertion plate 6 which are horizontally arranged are arranged below the vertical insertion plate 4, the structures of the upper insertion plate and the lower insertion plate are respectively shown in fig. 7 and fig. 8, the upper insertion plate 5 and the lower insertion plate 6 are arranged in parallel, the end of the upper inserting plate 5 and the end of the lower inserting plate 6 close to the front wall plate 1.1 are respectively provided with a comb rack which is horizontally arranged, the end of the comb rack of the upper inserting plate 5 close to the front wall plate is provided with an upper inclined surface 51 and a lower inclined surface 52, the lower inclined surface 52 is positioned below the upper inclined surface 51, the upper inclined surface 51 is downwards inclined, the lower inclined surface 52 is upwards inclined, the comb rack at the lower end of the vertical inserting plate 4 is downwards and sequentially inserted into a gap between the comb rack of the upper inserting plate 5 and a gap between the comb rack of the lower inserting plate 6, one side of the upper inserting plate 5 and one side of the lower inserting plate 6 close to the back wall plate 1.2 are respectively and fixedly connected with an upper inserting plate driving mechanism and a lower inserting plate driving mechanism, the upper inserting plate driving mechanism and the upper inserting plate driving mechanism respectively drive the upper inserting plate 5 and the lower inserting plate 6 to move towards the front wall plate 1.1 back and forth, a discharge hole is arranged at the front end of the lower inserting plate 6 for the lower inserting plate 6 to extend out, the upper inserting plate driving mechanism and the lower inserting plate driving mechanism are respectively connected with an upper mounting plate 7 and a lower mounting plate 8, the lower mounting plate 8 is fixed on the base 2, the connecting block 9 is fixedly connected between the upper mounting plate 7 and the material guide sloping plate 3, the material guide sloping plate 3 is connected with a sloping plate driving mechanism, and the material guide sloping plate 3 moves linearly along the inclined plane where the material guide sloping plate 3 is under the driving of the sloping plate driving mechanism.

In this embodiment, the inclined plate driving mechanism includes a fixing plate 10 fixed on the hopper body 1 and a screw rod 11 vertically penetrating through the fixing plate 10, the screw rod 11 is in sliding fit with the fixing plate 10, the screw rod 11 is parallel to the material guiding inclined plate 3, the fixing plate 10 is perpendicular to the material guiding inclined plate 3, position limiting sleeves 12 are respectively fixed on the screw rod 11 at two sides of the fixing plate 10, one end of the screw rod 11 is provided with an external thread spirally assembled in the connecting block 9, and the other end of the screw rod 11 is fixed with a knob 11.1.

In this embodiment, a guide supporting mechanism is disposed between the fixed plate 10 and the material guide sloping plate 3, the guide supporting mechanism includes a guide rod 13 vertically fixed on the fixed plate and a guide block 14 fixed on the bottom surface of the material guide sloping plate 3, a guide groove slidably engaged with the guide rod 13 is disposed on the guide block 14, and the guide rod 13 is parallel to the screw rod 11. The guide supporting mechanisms are arranged in two groups, and the two groups of guide supporting mechanisms are symmetrically arranged on two sides of the screw rod 11.

In this embodiment, go up picture peg actuating mechanism and lower picture peg actuating mechanism and be first cylinder 15 and second cylinder 16 respectively, the cylinder body of first cylinder 15 is fixed on last mounting panel 7, and the piston rod tip fixedly connected with upper junction plate 17 of first cylinder 15, it fixes on upper junction plate 17 to go up picture peg 5, the cylinder body of second cylinder 16 is fixed on mounting panel 8 down, the piston rod tip fixedly connected with lower connecting plate of second cylinder 16, picture peg 6 is fixed on lower connecting plate 18 down. A first guide mechanism is arranged between the upper mounting plate 7 and the upper connecting plate 17 and comprises a first guide rail 20 fixed on the upper mounting plate and a first sliding block 19 fixed on the upper connecting plate 17, the first guide rail 20 is positioned above the upper connecting plate 17, the first sliding block 19 is fixed on the upper surface of the upper connecting plate 17, and the first sliding block 19 is in sliding fit with the first guide rail 20; be equipped with second guiding mechanism between lower mounting panel 8 and the lower junction plate 18, second guiding mechanism is including fixing second guide rail 22 on lower mounting panel 8 and the second slider 21 of fixing on lower junction plate 18, and second guide rail 22 is located lower junction plate 18 below, and second slider 21 is fixed at the lower surface of lower junction plate 18, second slider 21 and second guide rail 22 sliding fit.

The fixing plate 10 is located below the rear wall plate 1.2. The surface that preceding wallboard 1.1 and back wallboard 1.2 are close to each other sets up the slot 23 of the vertical extension that the interval set up respectively, and the slot of preceding wallboard 1.1 and the slot interpolation of back wallboard 1.2 are equipped with baffle 24, and both sides cartridge respectively in the slot of preceding wallboard 1.1 and the slot of back wallboard 1.2 around baffle 24, and the lower limb of baffle 24 coincide the overlap joint at guide swash plate 3 upper surface. The slots on the front wall plate 1.1 and the rear wall plate 1.2 are uniformly distributed respectively. An outer protection plate 25 is arranged below the rear wall plate 1.2 on the hopper body 1, and the upper end of the outer protection plate 25 is fixedly connected with the fixing plate 10 through a bolt.

When the feed hopper of the numerical control tool grinding machine is used, a bar enters from an opening above the hopper body 1, the bar falls between the vertical inserting plate 4 and the front wall plate 1.1 along the guide inclined plate 3 and is caught by the upper inclined surface 5.1 at the end part of the upper inserting plate 5, the first air cylinder 15 acts to drive the upper inserting plate to move away from the front wall plate, so that the gap between the upper inserting plate 5 and the front wall plate 1.1 is larger than the diameter of the bar, the bar falls onto the lower inserting plate 6, at the moment, the first air cylinder 15 acts to drive the upper inserting plate 5 to move towards the front wall plate 1.1 immediately, the bar above is prevented from falling, and only one bar is ensured to fall each time; after the bar falls into the lower insert plate 6, the second air cylinder 16 acts to drive the lower insert plate 6 to move, and the end part of the lower insert plate 6 extends out of the discharge hole to send out the bar.

When the blanking of the bars with different diameters, the inclined plate driving mechanism is utilized to drive the material guide inclined plate 3 to move, so that the distance between the bottom of the material guide inclined plate 3 and the front wall plate 1.1 is changed, the bars with different diameters fall down, and when the material guide inclined plate 3 moves, the connecting block 9 drives the upper mounting plate 7, the first driving mechanism and the lower inserting plate 6 to synchronously move, and the bars with different diameters can smoothly fall down. In the embodiment, the inclined plate driving mechanism adopts a screw rod nut structure, the screw rod is rotated by the adjusting knob 11.1, the limiting sleeve limits the axial movement of the screw rod, and the connecting block moves axially along the screw rod 11 due to the threaded fit of the connecting block and the screw rod, and the connecting block 9 moves and simultaneously drives the material guide inclined plate 3, the upper mounting plate 7, the first driving mechanism and the lower inserting plate 6 to move synchronously. In specific application, the screw rod 11 and the knob 11.1 may be an integral structure, and specifically, a long bolt may be adopted, a bolt head of the long bolt is the knob 11.1, and a stud of the long bolt is the screw rod 11.

The comb teeth of the vertical insertion plate 4 are downwards and sequentially inserted between the comb teeth of the upper insertion plate 5 and between the comb teeth of the lower insertion plate 6, so that not only can the bar fall on the lower insertion plate 6, but also the vertical insertion plate 4 is ensured not to be separated from the upper insertion plate 5 and the lower insertion plate 6 when the material guide inclined plate 3 moves.

When bars with different lengths are blanked, the partition plate 24 is inserted into the slot 23 at different positions, so that the distance between the partition plate 24 and the left wall plate 1.3 or the right wall plate 1.4 is adaptive to the length of the bars.

The above embodiment is a preferred embodiment of the present invention, and in other embodiments of the present invention, the upper board driving mechanism and the lower board driving mechanism may also adopt a linear motor or an electric push rod as long as they can drive the upper board and the lower board to move linearly; similarly, the inclined plate driving mechanism can also adopt a linear motor or an electric push rod as long as the inclined plate driving mechanism can be driven to move along the plane where the material guiding inclined plate is located.

In other embodiments of the present invention, the structures of the guiding support mechanism, the first guiding mechanism and the second guiding mechanism can be flexibly selected according to actual needs; the utility model discloses a, direction supporting mechanism, first guiding mechanism and second guiding mechanism are not necessary, when guaranteeing guide swash plate, last picture peg, lower picture peg linear motion, can save direction supporting mechanism, first guiding mechanism and second guiding mechanism.

The basic principles and the main features of the present invention and the advantages of the present invention have been shown and described above, and the present invention is not limited to the above embodiments, but may be modified in many ways. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (10)

1. The utility model provides a numerical control tool grinding machine feeder hopper, includes the hopper body that is enclosed by preceding wallboard, back wallboard, left wallboard and right wallboard, and hopper body bottom is equipped with the base, and this internal guide swash plate to the bar direction that is equipped with of hopper, guide swash plate are by back wallboard to the antetheca downward sloping, and the discharge gate, its characterized in that have been seted up to the antetheca bottom: the bottom end of the material guide inclined plate is fixedly connected with a vertical inserting plate which is parallel to the front wall plate, the lower end of the vertical inserting plate is provided with a comb rack which is vertically arranged, an upper inserting plate and a lower inserting plate which are horizontally arranged are arranged below the vertical inserting plate, the upper inserting plate and the lower inserting plate are vertically parallel, one ends of the upper inserting plate and the lower inserting plate, which are close to the front wall plate, are respectively provided with a comb rack which is horizontally arranged, one ends of the comb rack of the upper inserting plate, which are close to the front wall plate, are provided with an upper inclined surface, the upper inclined surface inclines downwards, the comb rack at the lower end of the vertical inserting plate is downwards and sequentially inserted into gaps between the comb rack of the upper inserting plate and gaps between the comb rack of the lower inserting plate, one sides of the upper inserting plate and the lower inserting plate, which are close to the rear wall plate, are respectively and fixedly connected with an upper inserting plate driving mechanism and a lower inserting plate driving mechanism, the upper inserting plate driving mechanism and the lower inserting plate to move back and forth towards the front wall plate, the discharge gate is seted up and is supplied down the picture peg to stretch out at picture peg front end down, goes up picture peg actuating mechanism and is connected with mounting panel and lower mounting panel respectively on the lower picture peg actuating mechanism, and lower mounting panel is fixed on the base, fixedly connected with connecting block between upper mounting panel and the guide swash plate, be connected with swash plate actuating mechanism on the guide swash plate, the inclined plane slant linear motion at guide swash plate place is followed to the guide swash plate under swash plate actuating mechanism's drive.

2. The feed hopper of a numerically controlled tool grinding machine as recited in claim 1, wherein: the inclined plate driving mechanism comprises a fixed plate fixed on the hopper body and a lead screw vertically penetrating through the fixed plate, the lead screw is in sliding fit with the fixed plate, the lead screw is parallel to the material guide inclined plate, the fixed plate is perpendicular to the material guide inclined plate, limiting sleeves are respectively fixed at the positions of the two sides of the fixed plate on the lead screw, an external thread spirally assembled in the connecting block is arranged at one end of the lead screw, and a knob is fixed at the other end of the lead screw.

3. The feed hopper of a numerically controlled tool grinding machine as recited in claim 2, wherein: the guide support mechanism is arranged between the fixed plate and the guide inclined plate and comprises a guide rod vertically fixed on the fixed plate and a guide block fixed on the bottom surface of the guide inclined plate, a guide groove in sliding fit with the guide rod is formed in the guide block, and the guide rod is parallel to the screw rod.

4. The feed hopper of a numerically controlled tool grinding machine as recited in claim 2, wherein: the guide supporting mechanisms are arranged in two groups, and the two groups of guide supporting mechanisms are symmetrically arranged on two sides of the screw rod.

5. The feed hopper of a numerically controlled tool grinding machine as recited in claim 1, wherein: go up picture peg actuating mechanism and picture peg actuating mechanism down and be first cylinder and second cylinder respectively, the cylinder body of first cylinder is fixed on last mounting panel, the piston rod tip fixedly connected with upper junction plate of first cylinder, it fixes on the upper junction plate to go up the picture peg, the cylinder body of second cylinder is fixed under on the mounting panel, the connecting plate under the piston rod tip fixedly connected with of second cylinder, the picture peg is fixed under on the connecting plate.

6. The feed hopper of a numerically controlled tool grinding machine as recited in claim 5, wherein: a first guide mechanism is arranged between the upper mounting plate and the upper connecting plate and comprises a first guide rail fixed on the upper mounting plate and a first sliding block fixed on the upper connecting plate, the first guide rail is positioned above the upper connecting plate, the first sliding block is fixed on the upper surface of the upper connecting plate, and the first sliding block is in sliding fit with the first guide rail; and a second guide mechanism is arranged between the lower mounting plate and the lower connecting plate, the second guide mechanism comprises a second guide rail fixed on the lower mounting plate and a second sliding block fixed on the lower connecting plate, the second guide rail is positioned below the lower connecting plate, the second sliding block is fixed on the lower surface of the lower connecting plate, and the second sliding block is in sliding fit with the second guide rail.

7. The feed hopper of a numerically controlled tool grinding machine as recited in claim 1, wherein: one end, close to the front wall plate, of the comb teeth of the upper inserting plate is also provided with a lower inclined surface which inclines upwards, and the lower inclined surface is positioned below the upper inclined surface.

8. The feed hopper of a numerically controlled tool grinding machine as recited in claim 2, wherein: the fixed plate is located the below position of back wallboard, the vertical extension's that the interval set up slot is seted up respectively on the mutual close to of preceding wallboard and back wallboard slot interpolation, and the both sides cartridge is in the slot of preceding wallboard and the slot of back wallboard respectively around the baffle, and the lower limb of baffle coincide overlap joint is on guide swash plate upper surface.

9. The feed hopper of a numerically controlled tool grinding machine as recited in claim 8, wherein: the slots on the front wall plate and the rear wall plate are uniformly distributed.

10. The feed hopper of a numerically controlled tool grinding machine as recited in claim 1, wherein: an outer protection plate is arranged below the rear wall plate on the hopper body, and the upper end of the outer protection plate is fixedly connected with the fixing plate through a bolt.

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