CN219525502U - Mould drawing of patterns discharging device - Google Patents

Abstract

The utility model provides a mould drawing of patterns discharging device, relates to carbon dioxide phase transition inflation excitation tube drawing of patterns technical field, the quantity of material returning mechanism is two, and two material returning mechanisms are located the both sides of support frame respectively, are installed respectively on two material returning mechanisms and move down the mechanism, and move down the mechanism move down the end and move down the material end corresponding of material returning mechanism, install two receiving mechanisms on band conveyer's the edge casing; according to the die demolding and discharging device, the die with the pipe body is conveyed back and forth through the mechanical arm, the position of the die is fixed through the downward moving mechanism, the position of the die is adjusted back and forth, the pipe body on the die is returned through the material returning mechanism, the withdrawn pipe body is received through the material receiving mechanism and is orderly arranged on the belt conveyor, the pipe body is conveyed through the belt conveyor, the belt conveyor is cleaned through the cleaning mechanism, and sundries on the belt conveyor are prevented from being stuck on the pipe body.

Description

Mould drawing of patterns discharging device

Technical Field

The utility model relates to the technical field of carbon dioxide phase-change expansion excitation tube demolding, in particular to a mold demolding and discharging device.

Background

After the carbon dioxide phase change expansion excitation tube is filled with the medicine and sealed, the tube body needs to be taken out of the die, and when the tube body is manually taken out, the efficiency is low, and meanwhile, workers are required to carry the die back and forth, so that time and labor are consumed.

Disclosure of Invention

In order to overcome the defects in the background technology, the utility model discloses a die demolding and discharging device, which is characterized in that a mechanical arm is used for carrying a die provided with a pipe back and forth, a downward moving mechanism is used for fixing the position of the die, the position of the die is adjusted back and forth, a material returning mechanism is used for returning materials to the pipe on the die, a material receiving mechanism is used for receiving the withdrawn pipe, the withdrawn pipe is orderly arranged on a belt conveyor, the belt conveyor is used for conveying the pipe, and a cleaning mechanism is used for cleaning the belt conveyor, so that sundries on the belt conveyor are prevented from being stuck on the pipe.

In order to achieve the aim of the utility model, the utility model adopts the following technical scheme:

the utility model provides a mould drawing of patterns discharging device, includes material returning mechanism, support frame, control box and arm, install band conveyer on the support frame, material returning mechanism, band conveyer and arm's power supply input and the power supply output electricity of control box are connected, material returning mechanism's quantity is two, and two material returning mechanisms are located the both sides of support frame respectively, install down moving mechanism on two material returning mechanisms respectively, and move down moving mechanism's lower end and material returning mechanism's material returning end corresponding, install two receiving mechanism on band conveyer's the edge casing, the position of receiving mechanism receiving end and the position of moving down mechanism discharge end correspond, clearance mechanism is installed to band conveyer's one end, and clearance mechanism's clearance end and band conveyer's conveying end contact connection, power supply input and the power supply output electricity of control box of moving mechanism, receiving mechanism and clearance mechanism are connected down.

The material returning mechanism comprises a cabinet body, positioning blocks, sliding rods, a screw rod, a connecting plate, material returning rods, a positioning frame and a through motor, wherein the downward moving mechanism is installed on one side of the cabinet body, two positioning blocks are connected with each other through bolts on the cabinet body, two sliding rods and screws are installed between the two positioning blocks, the screws are located between the two sliding rods, the screw rod is connected with the through motor in a threaded manner, the through motor is connected with the sliding rods in a sliding manner, the connecting plate is installed on the through motor, the material returning rods which are arranged at equal intervals are installed on the connecting plate, the positioning frame is installed on the cabinet body and located one side of one positioning block, the position of the positioning frame corresponds to the position of the material returning rod and is in sliding connection with the position of the downward moving end of the downward moving mechanism.

The position of the central axis of the downward moving mechanism coincides with the position of the central axis of the material returning mechanism.

The lower shifting mechanism comprises a linear motor, a movable frame, a clamping plate, a pushing oil cylinder, a first L-shaped positioning plate, a placing plate and a pushing block, wherein the linear motor is positioned on one side of the fixed end of the material returning mechanism and is fixedly connected with the movable frame, the top end of the movable frame is provided with the placing plate, the two sides of the placing plate are respectively provided with the first L-shaped positioning plate, the position of the placing plate corresponds to the position of the material returning end of the material returning mechanism, the position of the placing plate corresponds to the position of the material receiving end of the material receiving mechanism, the pushing oil cylinder is arranged on the first L-shaped positioning plate, and the pushing oil cylinder is connected with the clamping plate through the pushing block.

The material receiving mechanism comprises a sliding frame, a material guiding frame, a first hydraulic cylinder and two fixing frames, wherein the two fixing frames are respectively positioned on edge shells on two sides of the belt conveyor and fixedly connected with the same, the first hydraulic cylinder is fixedly connected to the fixing frames, the telescopic end of the first hydraulic cylinder is connected with the sliding frame, the sliding frame is positioned on the edge shells of the belt conveyor and is in sliding connection with the sliding frame, the material guiding frame is arranged on the sliding frame, the position of the material guiding frame corresponds to the position of the discharge end of the downward moving mechanism, and the material guiding frame corresponds to the position of the belt conveyor.

The cleaning mechanism comprises a second hydraulic cylinder, a scraping plate, a limiting block, a second L-shaped locating plate and a connecting rod, wherein the second L-shaped locating plate is located on an edge shell on one side of the belt conveyor and is fixedly connected with the limiting block, the second hydraulic cylinder is installed on one side of the limiting block, the telescopic end of the second hydraulic cylinder penetrates through the limiting block to be connected with the scraping plate, the scraping plate is in contact connection with a conveying end of the belt conveyor, two connecting rods are installed on the scraping plate, and the positions of the connecting rods correspond to the positions of the limiting block and are in sliding connection.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

according to the die demolding and discharging device, the die with the pipe body is conveyed back and forth through the mechanical arm, the position of the die is fixed through the downward moving mechanism, the position of the die is adjusted back and forth, the pipe body on the die is returned through the material returning mechanism, the withdrawn pipe body is received through the material receiving mechanism and is orderly arranged on the belt conveyor, the pipe body is conveyed through the belt conveyor, the belt conveyor is cleaned through the cleaning mechanism, and sundries on the belt conveyor are prevented from being stuck on the pipe body.

Drawings

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

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the present utility model at A;

FIG. 4 is an enlarged schematic view of the structure of the present utility model at B;

FIG. 5 is an enlarged schematic view of the structure of the present utility model at C;

1. a material returning mechanism; 101. a cabinet body; 102. a positioning block; 103. a slide bar; 104. a screw; 105. a connecting plate; 106. a material returning rod; 107. a positioning frame; 108. a through motor; 2. a downward moving mechanism; 201. a linear motor; 202. a moving rack; 203. a clamping plate; 204. pushing the oil cylinder; 205. a first L-shaped locating plate; 206. placing a plate; 207. a pushing block; 3. a receiving mechanism; 301. a carriage; 302. a material guiding frame; 303. a first hydraulic cylinder; 304. a fixing frame; 4. a belt conveyor; 5. a support frame; 6. a mechanical arm; 7. a control box; 8. a cleaning mechanism; 801. a second hydraulic cylinder; 802. a scraper; 803. a limiting block; 804. a second L-shaped locating plate; 805. and (5) connecting a rod.

Description of the embodiments

The utility model will be explained in more detail by the following examples, the purpose of which is to protect all technical improvements within the scope of the utility model.

According to the die demolding and discharging device, attached drawing 1-5 is combined, the die demolding and discharging device comprises a material returning mechanism 1, a supporting frame 5, a control box 7 and a mechanical arm 6, a belt conveyor 4 is installed on the supporting frame 5, the power supply input ends of the material returning mechanism 1, the belt conveyor 4 and the mechanical arm 6 are electrically connected with the power supply output ends of the control box 7, the number of the material returning mechanisms 1 is two, the two material returning mechanisms 1 are respectively located on two sides of the supporting frame 5, the two material returning mechanisms 1 are respectively provided with a downward moving mechanism 2, the downward moving ends of the downward moving mechanisms 2 are corresponding to the material returning ends of the material returning mechanisms 1, two material receiving mechanisms 3 are installed on an edge shell of the belt conveyor 4, the positions of the material receiving ends of the material receiving mechanisms 3 are corresponding to the positions of the discharge ends of the downward moving mechanisms 2, the material receiving mechanisms 3 are used for receiving materials discharged by the downward moving mechanisms 2 and are integrally discharged on the belt conveyor 4, one end of the belt conveyor 4 is provided with a cleaning mechanism 8, the cleaning end of the cleaning mechanism 8 is respectively located on two sides of the supporting frame 5, the cleaning end of the belt conveyor 4 is in contact with the belt conveyor 4, the cleaning end of the belt conveyor 4 is in contact with the power supply end of the belt conveyor 4, the downward moving mechanism 2, the control box 7 is in contact with the power supply end of the power supply mechanism 7, the material returning mechanism 2 is connected with the control box 7, the material receiving mechanism 7, the cleaning mechanism 2 is in contact with the power supply end 7, the material receiving mechanism 2 is connected with the control box 7, and the material receiving mechanism 2 through the material receiving mechanism 3 through the power supply end 7, the control box 7 is connected with the material receiving mechanism 7, the material receiving mechanism 2 through the material receiving mechanism 7.

The material returning mechanism 1 comprises a cabinet body 101, positioning blocks 102, sliding rods 103, a screw rod 104, a connecting plate 105, material returning rods 106, positioning frames 107 and a through motor 108, wherein one side of the cabinet body 101 is provided with a downward moving mechanism 2, two positioning blocks 102 are connected to the cabinet body 101 through bolts, two sliding rods 103 and the screw rod 104 are arranged between the two positioning blocks 102, the screw rod 104 is positioned between the two sliding rods 103, the screw rod 104 is connected with the through motor 108 through threads, the through motor 108 is in sliding connection with the sliding rods 103, the connecting plate 105 is arranged on the through motor 108, the equidistant material returning rods 106 are arranged on the connecting plate 105, the positioning frames 107 are arranged on the cabinet body 101, the positioning frames 107 are positioned on one side of one positioning block 102, the positions of the positioning frames 107 correspond to the positions of the material returning rods 106 and are in sliding connection, and the positions of the downward moving ends of the downward moving mechanism 2 correspond to the positions of the material returning rods 106.

The position of the central axis of the downward moving mechanism 2 coincides with the position of the central axis of the material returning mechanism 1.

The moving mechanism 2 comprises a linear motor 201, a moving frame 202, a clamping plate 203, a pushing oil cylinder 204, a first L-shaped positioning plate 205, a placing plate 206 and a pushing block 207, wherein the linear motor 201 is located at one side of the fixed end of the material returning mechanism 1 and is fixedly connected with the moving frame 202, the placing plate 206 is installed at the top end of the moving frame 202, the first L-shaped positioning plate 205 is installed at two sides of the placing plate 206 respectively, the position of the placing plate 206 corresponds to the position of the material returning end of the material returning mechanism 1, the position of the placing plate 206 corresponds to the position of the material receiving end of the material receiving mechanism 3, the pushing oil cylinder 204 is installed on the first L-shaped positioning plate 205, and the pushing oil cylinder 204 is connected with the clamping plate 203 through the pushing block 207.

The material receiving mechanism 3 comprises a sliding frame 301, a material guiding frame 302, a first hydraulic oil cylinder 303 and fixing frames 304, wherein the number of the fixing frames 304 is two, the two fixing frames 304 are respectively positioned on edge shells on two sides of the belt conveyor 4 and are fixedly connected with the first hydraulic oil cylinder 303, the telescopic end of the first hydraulic oil cylinder 303 is connected with the sliding frame 301, the sliding frame 301 is positioned on the edge shell of the belt conveyor 4 and is in sliding connection, the material guiding frame 302 is arranged on the sliding frame 301, material guiding grooves which are arranged at equal intervals are arranged on the material guiding frame 302, the positions of the material guiding frame 302 correspond to the positions of discharge ends of the downward moving mechanism 2, and the material guiding frame 302 corresponds to the positions of the belt conveyor 4.

The cleaning mechanism 8 comprises a second hydraulic cylinder 801, a scraping plate 802, a limiting block 803, a second L-shaped positioning plate 804 and a connecting rod 805, wherein the second L-shaped positioning plate 804 is positioned on an edge shell on one side of the belt conveyor 4 and is fixedly connected with the limiting block 803, the second hydraulic cylinder 801 is installed on one side of the limiting block 803, the telescopic end of the second hydraulic cylinder 801 penetrates through the limiting block 803 to be connected with the scraping plate 802, the scraping plate 802 is in contact connection with the conveying end of the belt conveyor 4, two connecting rods 805 are installed on the scraping plate 802, and the position of the connecting rod 805 corresponds to the position of the limiting block 803 and is in sliding connection.

A mould drawing of patterns discharging device, when using, carry the mould that needs the material returned through arm 6, and place the mould on placing plate 206, push cylinder 204 drives clamping plate 203 through removing frame 207 and removes, press from both sides the tight mould through clamping plate 203, make the mould fix on placing plate 206, drive the mould through linear electric motor 201 and carry out the fixed distance's the downshift, move to a certain extent afterwards, drive connecting plate 105 through link up motor 108 and remove, connecting plate 105 can promote the material returning pole 106 in the removal process, release the body in the mould on placing plate 206 through material returning pole 106, the body of release drops to the baffle box on the baffle box 302, promote carriage 301 through first hydraulic cylinder 303, drive the baffle box 302 through carriage 301 and remove, make the baffle box 302 aim at the mould, make the body neatly drop on belt conveyor 4 through the baffle box on the baffle box 302, carry the body that drops through belt conveyor 4, drive scraper blade 802 through the second hydraulic cylinder 802 and reciprocate, carry out scraper blade 802 through the scraper blade 4 on the belt conveyor 4, avoid sticking up sundries on the belt conveyor 4.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. The utility model provides a mould drawing of patterns discharging device, includes material returning mechanism (1), support frame (5), control box (7) and arm (6), install band conveyer (4) on support frame (5), the power supply input of material returning mechanism (1), band conveyer (4) and arm (6) is connected characterized by with the power supply output electricity of control box (7): the automatic feeding and discharging device is characterized in that the number of the feeding mechanisms (1) is two, the two feeding mechanisms (1) are respectively located on two sides of the supporting frame (5), the two feeding mechanisms (1) are respectively provided with a downward moving mechanism (2), the downward moving ends of the downward moving mechanisms (2) correspond to the feeding ends of the feeding mechanisms (1), two receiving mechanisms (3) are arranged on the edge shell of the belt conveyor (4), the positions of the receiving ends of the receiving mechanisms (3) correspond to the positions of the discharging ends of the downward moving mechanisms (2), one end of the belt conveyor (4) is provided with a cleaning mechanism (8), the cleaning ends of the cleaning mechanism (8) are in contact connection with the conveying ends of the belt conveyor (4), and the power supply input ends of the downward moving mechanisms (2), the receiving mechanisms (3) and the cleaning mechanism (8) are electrically connected with the power supply output ends of the control box (7).

2. The mold stripping discharge device as claimed in claim 1, wherein: the material returning mechanism (1) comprises a cabinet body (101), a positioning block (102), sliding rods (103), a screw rod (104), a connecting plate (105), material returning rods (106), a positioning frame (107) and a through motor (108), wherein one side of the cabinet body (101) is provided with a downward moving mechanism (2), two positioning blocks (102) are connected with each other through bolts on the cabinet body (101), two sliding rods (103) and a screw rod (104) are arranged between the two positioning blocks (102), the screw rod (104) is positioned between the two sliding rods (103), the screw rod (104) is connected with a through motor (108) through threads, the through motor (108) is in sliding connection with the sliding rods (103), the connecting plate (105) is arranged on the through motor (108), the equidistant material returning rods (106) are arranged on the connecting plate (105), the positioning frame (107) is arranged on one side of one positioning block (102), the positioning frame (107) corresponds to the position of the material returning rods (106), and the position of the positioning frame (107) corresponds to the position of the material returning rod (106), and the position of the downward moving mechanism (106) corresponds to the position of the downward moving mechanism (2).

3. The mold stripping discharge device as claimed in claim 1, wherein: the position of the central axis of the downward moving mechanism (2) coincides with the position of the central axis of the material returning mechanism (1).

4. The mold stripping discharge device as claimed in claim 1, wherein: the utility model provides a move down mechanism (2) including linear electric motor (201), remove frame (202), clamping plate (203), push cylinder (204), first L type locating plate (205), place board (206) and promote piece (207), linear electric motor (201) are located one side and fixed connection of material returning mechanism (1) stiff end, fixedly connected with removes frame (202) on the moving end of linear electric motor (201), place board (206) are installed on the top of removing frame (202), and place both sides of board (206) and install first L type locating plate (205) respectively, the position of placing board (206) corresponds with the position of material returning mechanism (1) material returning end, place the position of board (206) and the position of material receiving mechanism (3) material returning end correspond, install on first L type locating plate (205) and promote cylinder (204), promote hydro-cylinder (204) and be connected with clamping plate (203) through promoting piece (207).

5. The mold stripping discharge device as claimed in claim 1, wherein: the material receiving mechanism (3) comprises a sliding frame (301), a material guiding frame (302), a first hydraulic oil cylinder (303) and fixing frames (304), wherein the number of the fixing frames (304) is two, the two fixing frames (304) are respectively located on edge shells on two sides of the belt conveyor (4) and fixedly connected with the first hydraulic oil cylinder (303), the telescopic end of the first hydraulic oil cylinder (303) is connected with the sliding frame (301), the sliding frame (301) is located on the edge shell of the belt conveyor (4) and is in sliding connection, the material guiding frame (302) is installed on the sliding frame (301), the position of the material guiding frame (302) corresponds to the position of the discharging end of the downward moving mechanism (2), and the material guiding frame (302) corresponds to the position of the belt conveyor (4).

6. The mold stripping discharge device as claimed in claim 1, wherein: the cleaning mechanism (8) comprises a second hydraulic cylinder (801), a scraping plate (802), a limiting block (803), a second L-shaped positioning plate (804) and a connecting rod (805), wherein the second L-shaped positioning plate (804) is positioned on an edge shell on one side of the belt conveyor (4) and is fixedly connected with the limiting block (803), the second hydraulic cylinder (801) is installed on one side of the limiting block (803), the telescopic end of the second hydraulic cylinder (801) penetrates through the limiting block (803) to be connected with the scraping plate (802), the scraping plate (802) is connected with the conveying end of the belt conveyor (4) in a contact mode, two connecting rods (805) are installed on the scraping plate (802), and the positions of the connecting rods (805) correspond to the positions of the limiting block (803) in a sliding mode.