CN219216422U - Automatic feeding device of forming machine - Google Patents

Abstract

The utility model discloses an automatic feeding device of a forming machine, which comprises a fixing frame, a conveying device, an adjusting device and a clamping device, wherein the adjusting device comprises a transmission rod, a separating cylinder is arranged on the outer side of the transmission rod and comprises a main cylinder and a secondary cylinder, the main cylinder is rotatably arranged on the transmission rod through a bearing, and the secondary cylinder is fixedly arranged on a power motor. The plate is conveyed to the upper end of the first conveying mechanism, the plate moves to the baffle plate along with the first conveying mechanism, when a plurality of plates are arranged on the conveying belt, the plate can drive the conveying belt to move downwards under the action of gravity, meanwhile, the rotating shaft on the inner side of the conveying belt can drive the separating cylinder to move downwards, meanwhile, the main cylinder and the auxiliary cylinder are in contact with the separating block, the main cylinder and the auxiliary cylinder move downwards along with the main cylinder and the auxiliary cylinder, the main cylinder and the auxiliary cylinder are gradually far away, the face gear is gradually separated, the conveying belt is stopped, abrasion caused by the surface of the plate is prevented, and meanwhile, the plate is prevented from being piled up at one place.

Description

Automatic feeding device of forming machine

Technical Field

The utility model relates to the field of automatic feeding, in particular to an automatic feeding device of a forming machine.

Background

The stacked plates are required to be sequentially placed on a conveying line and conveyed backwards for subsequent processing, for example, when apartment tables and chairs are produced, the stacked plates are required to be sequentially placed on the conveying line and conveyed backwards, and generally, floors to be attached are manually placed on the conveying line one by one in sequence for subsequent processing.

Because the production needs, can change artifical panel material loading into the automatic feeding of machine to accelerate production efficiency, guarantee the security simultaneously, current automatic panel loading attachment, chinese patent such as a panel automatic feeding device of bulletin number CN214030767U, for solving the difficult conveying of material loading panel buttress, through setting up a thrust unit in one side of panel buttress, the material on the panel buttress is pushed over the conveyer belt, baffle through the installation on the conveyer belt, leave the clearance under the baffle, can single panel pass through, the frictional force through panel and conveyer belt loops through, this kind of mode often can cause the card of panel to pile up in one place, also can cause certain wearing and tearing to the panel surface simultaneously.

Disclosure of Invention

The utility model aims to solve the problems and provide an automatic feeding device of a forming machine.

The utility model realizes the above purpose through the following technical scheme:

an automatic feeding device of a forming machine comprises a fixing frame, a conveying device, an adjusting device and a clamping device;

the fixing frame comprises a baffle, and the baffle is fixedly arranged on the fixing frame;

the conveying device comprises a first conveying mechanism and a second conveying mechanism;

the first conveying mechanism is arranged on one side of the baffle and comprises a shell, a rotating shaft, a conveying belt and an elastic piece;

the two shells are symmetrically arranged and fixedly arranged on the fixing frame through a positioning structure;

the two ends of the rotating shaft move up and down and are rotatably arranged in the corresponding shell;

one end of the conveyor belt is rotationally connected with the fixing frame through a fixing column, and the other end of the conveyor belt is sleeved outside the rotating shaft;

the elastic piece is arranged between the rotating shaft and the shell and is used for enabling the plate to be at a preset position when the plate on the conveyor belt is one, and enabling the plate on the uppermost layer to be at a preset position when the plate on the conveyor belt is a plurality of plates;

the second conveying mechanism is arranged on the other side of the baffle plate and is used for conveying the plate conveyed from the first conveying mechanism to a specified position;

the adjusting device is arranged in the shell and comprises a power motor, wherein the power motor is used for driving the rotating shaft to rotate when the number of the upper plates of the conveyor belt is one, and the power motor and the rotating shaft are separated from transmission when the number of the upper plates of the conveyor belt is multiple;

the clamping device is slidably mounted on the fixing frame and is used for conveying the plates at the preset positions from the first conveying mechanism to the second conveying mechanism when the plates are multiple on the conveying belt.

Preferably: the adjusting device also comprises a transmission rod and a separating cylinder;

the power motor is slidably arranged in the shell; the input end of the power motor is connected with the shell through a telescopic rod, and the telescopic rod is slidably arranged on the shell;

one end of the transmission rod is slidably arranged with the rotating shaft, and the other end of the transmission rod is meshed with the output end of the power motor through a face gear;

the separating cylinder comprises a main cylinder and a secondary cylinder;

the main cylinder is arranged outside the power motor and is slidably arranged in the shell; the main cylinder is rotatably arranged on the transmission rod;

the secondary cylinder and the main cylinder are coaxially arranged and slidably mounted on the shell;

the slave cylinder is fixedly arranged on the power motor, a wedge-shaped separation block is arranged at the joint of the master cylinder and the slave cylinder, and the separation block is arranged on the shell.

Preferably: the clamping device comprises a sliding rail and a power piece, wherein the sliding rail is fixedly arranged on the fixing frame, a sliding block is slidably arranged on the sliding rail, a fixed column is arranged above the sliding block, one end of the fixed column is hinged with the sliding block, a clamping plate is arranged at the other end of the fixed column, a hydraulic cylinder is arranged at one side of the fixed column, one end of the hydraulic cylinder is hinged with the sliding block, and the other end of the hydraulic cylinder is hinged with the fixed column;

the power piece is used for driving the sliding block to slide on the sliding rail.

Preferably: the elastic piece is a spring; the spring is installed between the main cylinder and the rotating shaft.

Preferably: the master cylinder and the slave cylinder are provided with guide members.

Preferably: the shell is slidably arranged on the fixing frame;

the positioning structure is an electric telescopic column; one end of the electric telescopic column is hinged with the fixing frame, and the other end of the electric telescopic column is hinged with the shell, and is used for enabling the shell to be positioned at a preset height of the fixing frame.

Preferably: the guide plate is installed to one end of shell, it has the spacing groove to open on the guide plate, the transfer line passes from the spacing inslot, the limiting plate is installed to the other end of shell, the limiting plate with power motor sliding connection.

Preferably: the power piece comprises a screw; the screw is arranged between the sliding block and the sliding rail and is in threaded fit with the sliding block;

the power end of the screw rod is provided with a moving motor which is fixedly arranged on the sliding rail.

Preferably: a roller is arranged at the feeding end of the fixing frame; two guide plates are symmetrically arranged at the upper end of the fixing frame, and the openings of the feeding ends of the two guide plates are gradually reduced to the outlet of the first conveying mechanism; one side of the baffle, which is close to the first conveying mechanism, is provided with a rounding angle.

The beneficial effects are that: the plate is conveyed to the upper end of the first conveying mechanism, the plate moves to the baffle plate along with the first conveying mechanism, when a plurality of plates are arranged on the conveying belt, the plate can drive the conveying belt to move downwards under the action of gravity, meanwhile, the rotating shaft on the inner side of the conveying belt can drive the separating cylinder to move downwards, meanwhile, the main cylinder and the auxiliary cylinder are in contact with the separating block, the main cylinder and the auxiliary cylinder move downwards along with the main cylinder and the auxiliary cylinder, the main cylinder and the auxiliary cylinder are gradually far away, the face gear is gradually separated, the conveying belt is stopped, abrasion caused by the surface of the plate is prevented, and meanwhile, the plate is prevented from being piled up at one place.

Drawings

FIG. 1 is a schematic perspective view of an automatic feeding apparatus of a molding machine according to the present utility model;

FIG. 2 is a front view of an automatic loading apparatus of a molding machine according to the present utility model;

FIG. 3 is a top view of an automatic feeding apparatus of a molding machine according to the present utility model;

FIG. 4 is an enlarged view of the automatic loading device of the molding machine shown in FIG. 3A;

FIG. 5 is a schematic view of a first conveying mechanism of an automatic feeding apparatus of a molding machine according to the present utility model

FIG. 6 is a full cross-sectional view of an automatic loading apparatus of a molding machine according to the present utility model;

FIG. 7 is a schematic view of a clamping device of an automatic feeding device of a molding machine according to the present utility model;

fig. 8 is a schematic view of a separating cylinder of an automatic feeding device of a forming machine according to the present utility model.

The reference numerals are explained as follows:

1. a fixing frame; 101. a baffle; 2. a transfer device; 210. a first conveying mechanism; 211. a conveyor belt; 212. a rotating shaft; 213. a housing; 214. an electric telescopic column; 220. a second conveying mechanism; 3. an adjusting device; 301. a transmission rod; 302. face gears; 303. a telescopic rod; 304. a spring; 305. a guide plate; 306. a power motor; 307. separating the blocks; 310. a separation cylinder; 311. a main barrel; 312. a slave cylinder; 313. a guide member; 4. a clamping device; 401. a slide rail; 402. a slide block; 403. a hydraulic cylinder; 404. fixing the column; 405. a clamping plate; 406. a screw; 407. a moving motor; 5. a roller; 6. and a deflector.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 8, an automatic feeding device of a forming machine comprises a fixing frame 1, a conveying device 2, an adjusting device 3 and a clamping device 4;

the fixing frame 1 comprises a baffle plate 101, wherein the baffle plate 101 is fixedly arranged on the fixing frame 1, and is used for preventing the plates from passing when more plates are arranged, so that the plates can pass in sequence;

the conveying device 2 comprises a first conveying mechanism 210 and a second conveying mechanism 220, wherein the first conveying mechanism 210 is used for separating stacked plates and sequentially conveying the plates to the second conveying mechanism 220;

the first conveying mechanism 210 is arranged on one side of the baffle 101 and comprises a shell 213, a rotating shaft 212, a conveying belt 211 and an elastic piece;

the two shells 213 are symmetrically arranged and fixedly arranged on the fixing frame 1 through a positioning structure, so that the stability of the device in the working process is ensured;

the two ends of the rotating shaft 212 move up and down and are rotatably installed in the corresponding housing 213, and the rotating shaft 212 moves different distances according to the difference of the weight force;

one end of the conveyor belt 211 is rotatably connected with the fixed frame 1 through a fixed column 404, and the other end is sleeved outside the rotating shaft 212;

the elastic piece is arranged between the rotating shaft 212 and the shell 213, and is used for enabling the plate to be at a preset position when the plate on the conveyor belt 211 is one, enabling the plate on the uppermost layer to be at a preset position when the plate on the conveyor belt 211 is a plurality of plates, and improving the refining efficiency of the plate;

the second conveying mechanism 220 is disposed at the other side of the baffle 101, and is used for conveying the plate material conveyed from the first conveying mechanism 210 to a designated position, ensuring smooth conveying of the plate material and preventing the plate material from accumulating at one place;

the adjusting device 3 is arranged in the shell 213 and comprises a power motor 306, wherein the power motor 306 is used for driving the rotating shaft 212 to rotate when the number of plates on the conveyor belt 211 is one, and the power motor 306 and the rotating shaft 212 are separated from transmission when the number of plates on the conveyor belt 211 is multiple;

the clamping device 4 is slidably mounted on the fixing frame 1, and is used for conveying the plates at preset positions from the first conveying mechanism 210 to the second conveying mechanism 220 when the plates are multiple on the conveying belt 211, when two or more plates move onto the conveying belt 211, the plates move along with the conveying belt 211, and the pressure on the electric telescopic column 214 is higher along with the gradual approach to the baffle 101, so that the electric telescopic column 214 compresses, and when the plates are in contact with the baffle 101, only one plate is higher than the baffle 101, thus the plates can be effectively and rapidly separated, and the processing efficiency is improved.

In this embodiment: the adjusting device 3 also comprises a transmission rod 301 and a separating cylinder 310;

a power motor 306 is slidably mounted within the housing 213; the input end of the power motor 306 is connected with the housing 213 through a telescopic rod 303, and the telescopic rod 303 is slidably mounted on the housing 213;

one end of the transmission rod 301 is slidably arranged with the rotating shaft 212, and the other end is meshed with the output end of the power motor 306 through the face gear 302;

the separation cylinder 310 includes a master cylinder 311 and a slave cylinder 312;

the main cylinder 311 is disposed outside the power motor 306 and slidably mounted within the housing 213; the main cylinder 311 is rotatably mounted on the transmission rod 301;

the slave cylinder 312 and the master cylinder 311 are coaxially disposed and slidably mounted on the housing 213;

the slave cylinder 312 is fixedly arranged on the power motor 306, a wedge-shaped separation block 307 is arranged at the joint of the master cylinder 311 and the slave cylinder 312, the separation block 307 is arranged on the shell 213, when the conveyor belt 211 moves downwards, the rotating shaft 212 on the inner side of the conveyor belt 211 moves along, then the rotating shaft 212 drives the separation cylinder 310 to move downwards, the master cylinder 311 and the slave cylinder 312 are contacted with the separation block 307 along with the downward movement of the separation cylinder 310, the master cylinder 311 and the slave cylinder 312 are gradually far away, the face gear 302 is gradually separated, the spring 304 arranged between the master cylinder 311 and the rotating shaft 212 is compressed while the face gear 302 is separated, the power motor 306 compresses the telescopic rod 303, when the face gear 302 is completely separated, the power motor 306 stops conveying energy to the rotating shaft 212, the conveyor belt 211 stops rotating, abrasion to the surface of a plate is prevented, and the plate is prevented from accumulating at one place.

In this embodiment: the clamping device 4 comprises a sliding rail 401 and a power piece, the sliding rail 401 is fixedly arranged on the fixed frame 1, a sliding block 402 is slidably arranged on the sliding rail 401, a fixed column 404 is arranged above the sliding block 402, one end of the fixed column 404 is hinged with the sliding block 402, a clamping plate 405 is arranged at the other end of the fixed column 404, a hydraulic cylinder 403 is arranged at one side of the fixed column 404, one end of the hydraulic cylinder 403 is hinged with the sliding block 402, the other end of the hydraulic cylinder 403 is hinged with the fixed column 404, and stacked plates are sequentially separated and conveyed to a designated position;

the power piece is used for driving the sliding block 402 to slide on the sliding rail 401.

In this embodiment: the elastic piece is a spring 304; the spring 304 is installed between the main cylinder 311 and the rotating shaft 212, and is used for compressing the spring 304 in the moving process of the main cylinder 311 and simultaneously accumulating force when the main cylinder 311 drives the transmission rod 301 to move towards the rotating shaft 212 when the rotating shaft 212 moves downwards, and meanwhile, the rotating shaft 212 is separated from the output end of the power motor 306, so that the rotating shaft 212 stops rotating, and when the rotating shaft 212 moves upwards, the spring 304 releases force to push the main cylinder 311 to drive the transmission rod 301 to move towards the power motor 306 and engage with the output end of the power motor 306, and the power motor 306 drives the rotating shaft 212 to work.

In this embodiment: the guide piece 313 is arranged on the main cylinder 311 and the auxiliary cylinder 312, the guide piece 313 is in sliding fit with a guide groove guide block and is used for limiting the moving position of the main cylinder 311 and the auxiliary cylinder 312, the guide block moves along the direction of the guide groove in the relative moving process of the main cylinder 311 and the auxiliary cylinder 312, the main cylinder 311 and the auxiliary cylinder 312 are ensured to be always kept coaxial in the relative moving process, the position deviation of the main cylinder 311 and the auxiliary cylinder 312 after moving is prevented, and the main cylinder 311 and the auxiliary cylinder 312 are not easy to be closed again.

In this embodiment: the housing 213 is slidably mounted on the mount 1;

the positioning structure is an electric telescopic column 214; one end of the electric telescopic column 214 is hinged with the fixing frame 1, and the other end of the electric telescopic column is hinged with the shell 213, so that the shell 213 is positioned at a preset height of the fixing frame 1, and is convenient for adapting to plates with different specifications.

In this embodiment: a guide plate 305 is installed at one end of the housing 213, a limit groove is formed in the guide plate 305, the transmission rod 301 passes through the limit groove, a limit plate is installed at the other end of the housing 213 and is in sliding connection with the power motor 306, movement of the transmission rod 301 is limited, and the transmission rod 301 is prevented from being separated from a preset track.

In this embodiment: the power element includes a screw 406; a screw 406 is provided between the slider 402 and the slide rail 401 and is screw-engaged with the slider 402.

The power end of the screw 406 is provided with a moving motor 407, the moving motor 407 is fixedly arranged on the sliding rail 401, the moving motor 407 is started, the moving motor 407 drives the screw 406 to rotate, and then the sliding block 402 moves in the sliding rail 401 along the direction of the screw 406.

In this embodiment: a roller 5 is arranged at the feeding end of the fixing frame 1; two guide plates 6 are symmetrically arranged at the upper end of the fixing frame 1, and the openings of the feeding ends of the two guide plates 6 are gradually reduced to the outlet of the first conveying mechanism 210; one side of the baffle plate 101, which is close to the first conveying mechanism 210, is provided with a rounded corner, so that the baffle plate is not suitable for clamping with a subsequent plate when the plate is inclined, and the baffle plate is straightened in advance when the plate passes through the guide plate 6, so that subsequent processing is smoother.

In the above structure, firstly, the plate is placed on the roller 5, then the power motor 306 is started, and the plate is pushed onto the conveyor 211, when only one plate is on the conveyor 211, the plate first conveyor 210 moves onto the second conveyor 220 and is sent to the processing position of the forming machine, when two or more plates are moved onto the conveyor 211, then the plate follows the conveyor 211, when the plate contacts the baffle 101, only one plate is higher than the baffle 101, thus effectively separating the plate quickly, improving the processing efficiency, when the conveyor 211 moves downwards, the rotating shaft 212 on the inner side of the conveyor 211 moves along with the movement, then the rotating shaft 212 drives the separating cylinder 310 to move downwards, and as the separating cylinder 310 moves downwards, the main cylinder 311 and the secondary cylinder 312 are contacted with the separating block 307, and the main cylinder 311 and the secondary cylinder 312 are gradually far away, during the relative movement of the main cylinder 311 and the secondary cylinder 312, the guide block of the guide member 313 moves along the direction of the guide groove, so that the main cylinder 311 and the sub cylinder 312 are always kept coaxial in the relative movement process, the face gear 302 is gradually separated, the face gear 302 is separated, the spring 304 arranged between the main cylinder 311 and the rotating shaft 212 is compressed and accumulated, the power motor 306 compresses the telescopic rod 303, when the face gear 302 is completely separated, the power motor 306 stops supplying energy to the rotating shaft 212, thereby stopping the rotation of the conveyor belt 211, preventing the abrasion caused by the surface of the plate, simultaneously preventing the plate from accumulating at one place, then starting the hydraulic cylinder 403, then the hydraulic cylinder 403 pushes the fixed column 404 to rotate around the hinge joint with the sliding block 402, simultaneously the clamping plate 405 at the upper end of the fixed column 404 is pushed to one side of the plate, the plate is clamped, the moving motor 407 is started after the fixing is completed, the moving motor 407 drives the screw 406 to rotate, then the sliding block 402 moves in the sliding rail 401 along the direction of the screw 406, and simultaneously, the fixed plate is conveyed to the second conveying mechanism 220, so that abrasion caused by the surface of the plate is prevented, the plate is prevented from being piled up at one position, and the feeding efficiency of the plate is improved.

Further, when the specifications of the plates are different and the weights are different, the compression amount of the springs 304 is different when the conveyor 211 is arranged, so that the downward moving distance of one end of the conveyor 211 close to the baffle 101 is different, and the greater the weight of the plates is, the more the end of the conveyor 211 close to the baffle 101 is moved downward, the length of the electric telescopic column 214 is adjusted at the moment, and the height of the housing 213 is adjusted, so that the conveyor 211 is suitable for the plates with different specifications.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.

Claims (9)

1. An automatic feeding device of a forming machine, which is characterized in that: comprises a fixing frame (1), a conveying device (2), an adjusting device (3) and a clamping device (4);

the fixing frame (1) comprises a baffle plate (101), and the baffle plate (101) is fixedly arranged on the fixing frame (1);

the conveying device (2) comprises a first conveying mechanism (210) and a second conveying mechanism (220);

the first conveying mechanism (210) is arranged on one side of the baffle plate (101) and comprises a shell (213), a rotating shaft (212), a conveying belt (211) and an elastic piece;

the two shells (213) are symmetrically arranged and fixedly arranged on the fixing frame (1) through a positioning structure;

both ends of the rotating shaft (212) move up and down and are rotatably arranged in the corresponding shell;

one end of the conveyor belt (211) is rotationally connected with the fixed frame (1) through a fixed column, and the other end of the conveyor belt is sleeved outside the rotating shaft (212);

the elastic piece is arranged between the rotating shaft (212) and the shell (213) and is used for enabling the plate to be at a preset position when the plate on the conveyor belt (211) is one, and enabling the plate on the uppermost layer to be at a preset position when the plate on the conveyor belt (211) is a plurality of plates;

the second conveying mechanism (220) is arranged on the other side of the baffle plate (101) and is used for conveying the plate conveyed from the first conveying mechanism (210) to a specified position;

the adjusting device (3) is arranged in the shell (213) and comprises a power motor (306), wherein the power motor (306) is used for driving the rotating shaft (212) to rotate when one upper plate of the conveyor belt (211) is arranged, and the power motor (306) and the rotating shaft (212) are separated from transmission when a plurality of upper plates of the conveyor belt (211) are arranged;

the clamping device (4) is slidably mounted on the fixing frame (1) and is used for conveying the plate materials at preset positions from the first conveying mechanism (210) to the second conveying mechanism (220) when the plate materials on the conveying belt (211) are multiple.

2. An automatic feeding apparatus of a molding machine according to claim 1, wherein: the adjusting device (3) further comprises a transmission rod (301) and a separating cylinder (310);

the power motor (306) is slidably mounted in the housing (213); the input end of the power motor (306) is connected with the shell (213) through a telescopic rod (303), and the telescopic rod (303) is slidably arranged on the shell (213);

one end of the transmission rod (301) is slidably arranged with the rotating shaft (212), and the other end of the transmission rod is meshed with the output end of the power motor (306) through a face gear (302);

the separating cylinder (310) comprises a main cylinder (311) and a secondary cylinder (312);

the main cylinder (311) is arranged outside the power motor (306) and is slidably arranged in the shell (213); the main cylinder (311) is rotatably arranged on the transmission rod (301);

the slave cylinder (312) and the master cylinder (311) are coaxially arranged and slidably mounted on the housing (213);

the slave cylinder (312) is fixedly arranged on the power motor (306), a wedge-shaped separation block (307) is arranged at the joint of the master cylinder (311) and the slave cylinder (312), and the separation block (307) is arranged on the shell (213).

3. An automatic feeding apparatus of a molding machine according to claim 2, wherein: the clamping device (4) comprises a sliding rail (401) and a power piece, the sliding rail (401) is fixedly arranged on the fixed frame (1), a sliding block (402) is slidably arranged on the sliding rail (401), a fixed column (404) is arranged above the sliding block (402), one end of the fixed column (404) is hinged with the sliding block (402), a clamping plate (405) is arranged at the other end of the fixed column (404), a hydraulic cylinder (403) is arranged at one side of the fixed column (404), one end of the hydraulic cylinder (403) is hinged with the sliding block (402), and the other end of the hydraulic cylinder (403) is hinged with the fixed column (404);

the power piece is used for driving the sliding block (402) to slide on the sliding rail (401).

4. An automatic feeding apparatus of a molding machine according to claim 3, wherein: the elastic piece is a spring (304); the spring (304) is installed between the main cylinder (311) and the rotating shaft (212).

5. An automatic feeding apparatus of a molding machine according to claim 2, wherein: a guide (313) is mounted on the master cylinder (311) and the slave cylinder (312).

6. An automatic feeding apparatus of a molding machine according to claim 1, wherein: the shell (213) is slidably arranged on the fixed frame (1);

the positioning structure is an electric telescopic column (214); one end of the electric telescopic column (214) is hinged with the fixing frame (1), and the other end of the electric telescopic column is hinged with the shell (213) and is used for enabling the shell (213) to be positioned at a preset height of the fixing frame (1).

7. An automatic feeding apparatus of a molding machine according to claim 2, wherein: guide plate (305) are installed to one end of shell (213), open on guide plate (305) has the spacing inslot, transfer line (301) pass from the spacing inslot, the limiting plate is installed to the other end of shell (213), the limiting plate with power motor (306) sliding connection.

8. An automatic feeding apparatus of a molding machine according to claim 3, wherein: the power piece comprises a screw (406); the screw (406) is arranged between the sliding block (402) and the sliding rail (401) and is in threaded fit with the sliding block (402);

the power end of the screw rod (406) is provided with a moving motor (407), and the moving motor (407) is fixedly arranged on the sliding rail (401).

9. An automatic feeding apparatus of a molding machine according to claim 1, wherein: a roller (5) is arranged at the feeding end of the fixing frame (1); two guide plates (6) are symmetrically arranged at the upper end of the fixing frame (1), and the openings of the feeding ends of the two guide plates (6) are gradually reduced to the outlet of the first conveying mechanism (210); the baffle plate (101) is provided with a rounded corner at one side close to the first conveying mechanism (210).

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