阅读说明：本技术 一种环保木炭生产用均匀挤压的成型装置 (Environment-friendly charcoal production is with forming device of even extrusion ) 是由 陈少丽 于 2021-08-26 设计创作，主要内容包括：本发明涉及一种成型装置,尤其涉及一种环保木炭生产用均匀挤压的成型装置。本发明提供一种无需人工手动对木炭进行挤压、比较省力、能够减少木炭扬尘的环保木炭生产用均匀挤压的成型装置。一种环保木炭生产用均匀挤压的成型装置,包括有支撑架、装料框、第一固定架、第一气缸、第一滑动杆、第一滑块、第一弹簧、第一固定块、翻板、收料框、扭力弹簧、挡料机构和卡紧机构,支撑架上部中间安装有装料框。在第一气缸的驱动下,实现了对木炭自动且均匀挤压的目的,节省了人力,通过卡紧机构能够对翻板进行固定,从而使装料框处于封闭状态,一方面能够减少木炭扬尘的产生,另一方面能够防止木炭原料受到挤压将翻板推开。(The invention relates to a forming device, in particular to a uniform extrusion forming device for producing environment-friendly charcoal. The invention provides a uniform extrusion molding device for producing environment-friendly charcoal, which does not need manual operation to extrude the charcoal, saves labor and can reduce charcoal dust. The utility model provides an environmental protection charcoal production is with forming device of even extrusion, includes support frame, material loading frame, first mount, first cylinder, first slide bar, first slider, first spring, first fixed block, turns over board, material receiving frame, torsion spring, stock stop and chucking mechanism, installs the material loading frame in the middle of the support frame upper portion. Under the drive of first cylinder, realized the automatic and even extruded purpose of charcoal, saved the manpower, can fix turning over the board through chucking mechanism to the frame that makes to feed is in the encapsulated situation, can reduce the production of charcoal raise dust on the one hand, and on the other hand can prevent that the charcoal raw materials from receiving the extrusion and will turning over the board and push away.)

1. The forming device is characterized by comprising a support frame (1), a charging frame (2), a first fixing frame (3), a first cylinder (4), a first sliding rod (5), a first sliding block (6), a first spring (7), a first fixing block (8), a turning plate (9), a material receiving frame (91), a torsion spring (92), a material blocking mechanism (10) and a clamping mechanism (11), wherein the charging frame (2) is installed in the middle of the upper portion of the support frame (1), a discharge hole is formed in the right side of the charging frame (2), the first fixing frame (3) is installed on the left side of the bottom of the charging frame (2), the first cylinder (4) is installed on the upper portion of the first fixing frame (3), the first sliding rod (5) is installed on a telescopic rod of the first cylinder (4), the first spring (7) is connected between the first sliding rod (5) and the telescopic rod of the first cylinder (4), first slider (6) are installed on first slide bar (5) right side, first slider (6) and the frame (2) inner wall sliding fit that charges, two first fixed blocks (8) are all installed to both sides around the frame (2) left part of charging, two first fixed block (8) bilateral symmetry, equal rotary type is connected with between two first fixed blocks (8) of bilateral symmetry and turns over board (9), it is connected with torque spring (92) to turn over between board (9) and first fixed block (8), it receives material frame (91) to install on support frame (1) top right side, frame (2) right side of charging is equipped with stock stop (10), it is equipped with chucking mechanism (11) on board (9) to turn over.

2. The forming device for uniformly extruding the environment-friendly charcoal for production according to claim 1, wherein the material blocking mechanism (10) comprises a fixing rod (101), a second slider (102), a second spring (103) and a material blocking plate (104), the fixing rod (101) is installed on the right side of the bottom of the material loading frame (2), the second slider (102) is connected onto the fixing rod (101) in a sliding mode, the second spring (103) is connected between the second slider (102) and the fixing rod (101), the top end of the second spring (103) is connected with the second slider (102), the bottom end of the second spring (103) is connected with the fixing rod (101), the material blocking plate (104) is installed on the top of the second slider (102), and the material blocking plate (104) is in sliding fit with the discharge hole.

3. The forming device for uniformly extruding the environment-friendly charcoal for production according to claim 2, wherein the clamping mechanism (11) comprises a guide block (111), a second fixed block (112), a third slider (113) and a sliding frame (114), the guide block (111) is mounted at the top of the turning plate (9) at the rear side, the guide block (111) is located at the front side of the handle at the rear side, the sliding frame (114) is connected to the guide block (111) in a sliding manner, the two third sliders (113) are mounted at the front side of the sliding frame (114), the two third sliders (113) are bilaterally symmetrical, the two second fixed blocks (112) are mounted at the top of the turning plate (9) at the front side in a bilaterally symmetrical manner, the second fixed block (112) is located at the rear side of the handle at the front side, and the third slider (113) can be clamped by the second fixed block (112).

4. The uniformly-extruding molding device for producing the environment-friendly charcoal as claimed in claim 3, further comprising a pressing mechanism (12), wherein the pressing mechanism (12) comprises a third fixed block (121), a second sliding rod (122), a shift lever (123) and a third spring (124), the third fixed block (121) is installed in the middle of the bottom of the charging frame (2), the second sliding rod (122) is installed on the left side of the first sliding block (6), the second sliding rod (122) is slidably connected with the charging frame (2), the shift lever (123) is slidably connected with the second sliding rod (122), the shift lever (123) is slidably connected with the third fixed block (121), the shift lever (123) is matched with the second sliding block (102), the third spring (124) is connected between the shift lever (123) and the second sliding rod (122), and the left end of the third spring (124) is connected with the shift lever (123), the right end of the third spring (124) is connected with the second slide lever (122).

5. The forming device for uniformly extruding the environment-friendly charcoal for production according to claim 4, further comprising an extruding mechanism (13), wherein the extruding mechanism (13) comprises a second fixing frame (131), a third sliding rod (132), a fourth spring (133), an extruding block (134), a first guide rod (135), a shifting block (136) and a fifth spring (137), the first guide rod (135) is installed on the left side of the first sliding block (6), the first guide rod (135) is located on the rear side of the second sliding rod (122), the first guide rod (135) is slidably connected with the charging frame (2), the shifting block (136) is installed on the first guide rod (135), the second fixing frame (131) is installed on the left side of the upper portion of the charging frame (2), the third sliding rod (132) is slidably connected in the second fixing frame (131), and the shifting block (136) is matched with the third sliding rod (132), a fourth spring (133) is sleeved on the third sliding rod (132), the left end of the fourth spring (133) is connected with the third sliding rod (132), the right end of the fourth spring (133) is connected with the second fixing frame (131), an extrusion block (134) is installed on the right side of the third sliding rod (132), the sliding frame (114) can be extruded by the extrusion block (134), and a fifth spring (137) is connected between the sliding frame (114) and the top of the turning plate (9) on the rear side.

6. The molding device with uniform extrusion for producing charcoal according to claim 5, the cutting-off mechanism is characterized by further comprising a cutting-off mechanism (14), the cutting-off mechanism (14) comprises a forming die (141), a third fixing frame (142), a second guide rod (143), a blade (144) and a sixth spring (145), the forming die (141) is installed on the right side of the charging frame (2), the forming die (141) corresponds to the left and right of the discharge hole, the third fixing frame (142) is installed at the top of the forming die (141), the second guide rod (143) is installed at the bottom of the third fixing frame (142), the blade (144) is connected onto the second guide rod (143) in a sliding mode, the sixth spring (145) is sleeved on the upper portion of the second guide rod (143), the top end of the sixth spring (145) is connected with the bottom of the third fixing frame (142), and the bottom end of the sixth spring (145) is connected with the top of the blade (144).

7. The molding device with uniform extrusion for producing charcoal according to claim 6, the material supporting mechanism is characterized by further comprising a material supporting mechanism (15), the material supporting mechanism (15) comprises a fourth fixing frame (151), a second cylinder (152), a material supporting plate (153), a connecting rod (154) and a power button (155), the fourth fixing frame (151) is installed on the right side of the charging frame (2), the fourth fixing frame (151) is located on the front side of the forming mold (141), the second cylinder (152) is installed in the fourth fixing frame (151), the material supporting plate (153) is connected onto a telescopic rod of the second cylinder (152), the material supporting plate (153) is connected with the bottom of the forming mold (141) in a sliding mode, the connecting rod (154) is installed on the right side of the charging frame (2), the connecting rod (154) is located on the front side of the fourth fixing frame (151), and the power button (155) is installed on the right side of the top of the connecting rod (154).

8. The forming device of uniform extrusion for environmental charcoal production according to claim 7, wherein a handle is installed on the top of the turning plate (9) to facilitate the opening of the turning plate (9).

Technical Field

The invention relates to a forming device, in particular to a uniform extrusion forming device for producing environment-friendly charcoal.

Background

The environment-friendly charcoal is a main energy material, can be used for metallurgy, charcoal brick manufacturing and the like, is large in usage amount in daily production and life, and is easy to spill in the transportation process to cause great waste, so that charcoal is generally made into blocks by manufacturers and is convenient to transport.

At present, when making the blocking to the charcoal, need artifical handheld briquetting to extrude the shredded wood charcoal, extrude the shredded wood charcoal into the even tiny granule of size, then put into the mould with the charcoal of extruding after garrulous again, repeatedly press and fill the shredded wood charcoal in the mould, after the shredded wood charcoal compaction, carry out the drawing of patterns again, this is harder, makes dirty with workman's clothing easily moreover, simultaneously, can produce the charcoal raise dust during the extrusion, influences workman's health.

Therefore, the even extrusion forming device for producing the environment-friendly charcoal is required to be designed, which can extrude the charcoal without manual operation, is labor-saving and can reduce charcoal dust.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the manual extrusion molding mode of charcoal is labor-consuming, the clothes of workers are easy to stain, and charcoal dust is generated during extrusion to influence the health of the workers.

(2) Technical scheme

In order to solve the technical problems, the invention provides a uniform extrusion molding device for producing environment-friendly charcoal, which comprises a support frame, a loading frame, a first fixing frame, a first air cylinder, a first sliding rod, a first sliding block, a first spring, a first fixing block, a turning plate, a material receiving frame, a torsion spring, a material blocking mechanism and a clamping mechanism, wherein the loading frame is arranged in the middle of the upper part of the support frame, a discharge hole is formed in the right side of the loading frame, the first fixing frame is arranged on the left side of the bottom of the loading frame, the first air cylinder is arranged on the upper part of the first fixing frame, the first sliding rod is arranged on a telescopic rod of the first air cylinder, the first spring is connected between the first sliding rod and the telescopic rod of the first air cylinder, the first sliding block is arranged on the right side of the first sliding rod, the first sliding block is in sliding fit with the inner wall of the loading frame, two first fixing blocks are arranged on the front side and the back side of the left part of the loading frame, and the two first fixing blocks are in bilateral symmetry, the left and right symmetrical first fixing blocks are connected with a turning plate in a rotating mode, a torsion spring is connected between the turning plate and the first fixing blocks, the material receiving frame is installed on the right side of the top of the support frame, a material stopping mechanism is arranged on the right side of the material receiving frame, and a clamping mechanism is arranged on the turning plate.

Preferably, the stock stop is including dead lever, second slider, second spring and striker plate, and the dead lever is installed on the frame bottom right side of feeding, and slidable connection has the second slider on the dead lever, is connected with the second spring between second slider and the dead lever, and the top and the second slider of second spring are connected, and the bottom and the dead lever of second spring are connected, and the striker plate is installed at second slider top, striker plate and discharge opening sliding fit.

Preferably, chucking mechanism is including the guide block, the second fixed block, third slider and carriage, and the guide block is installed at the board top that turns over of rear side, and the guide block is located the front side of rear side handle, and the gliding style of guide block is connected with the carriage, and two third sliders are installed to the carriage front side, two third slider bilateral symmetry, and two second fixed blocks are installed to the board top bilateral symmetry formula that turns over of front side, and the second fixed block is located the rear side of front side handle, and the third slider can be blocked to the second fixed block.

Preferably, the material loading device further comprises a pressing mechanism, the pressing mechanism comprises a third fixed block, a second sliding rod, a shifting rod and a third spring, the third fixed block is installed in the middle of the bottom of the material loading frame, the second sliding rod is installed on the left side of the first sliding block and is connected with the material loading frame in a sliding mode, the shifting rod is connected with the second sliding rod in a sliding mode and is connected with the third fixed block in a sliding mode, the shifting rod is matched with the second sliding block, the third spring is connected between the shifting rod and the second sliding rod, the left end of the third spring is connected with the shifting rod, and the right end of the third spring is connected with the second sliding rod.

Preferably, the extrusion mechanism comprises a second fixing frame, a third sliding rod, a fourth spring, an extrusion block, a first guide rod, a shifting block and a fifth spring, the first guide rod is installed on the left side of the first sliding block, the first guide rod is located on the rear side of the second sliding rod, the first guide rod is connected with the charging frame in a sliding mode, the shifting block is installed on the first guide rod, the second fixing frame is installed on the left side of the upper portion of the charging frame, the third sliding rod is connected in the second fixing frame in a sliding mode, the shifting block is matched with the third sliding rod, the third sliding rod is sleeved with the fourth spring, the left end of the fourth spring is connected with the third sliding rod, the right end of the fourth spring is connected with the second fixing frame, the extrusion block is installed on the right side of the third sliding rod, the sliding frame can be extruded by the extrusion block, and the fifth spring is connected between the sliding frame and the top of the turning plate on the rear side.

Preferably, the cutting mechanism comprises a forming die, a third fixing frame, a second guide rod, a blade and a sixth spring, the forming die is installed on the right side of the charging frame and corresponds to the left and right of the discharging hole, the third fixing frame is installed at the top of the forming die, the second guide rod is installed at the bottom of the third fixing frame, the blade is connected onto the second guide rod in a sliding mode, the sixth spring is sleeved on the upper portion of the second guide rod, the top end of the sixth spring is connected with the bottom of the third fixing frame, and the bottom end of the sixth spring is connected with the top of the blade.

Preferably, the material supporting mechanism comprises a fourth fixing frame, a second cylinder, a material supporting plate, a connecting rod and a power button, the fourth fixing frame is installed on the right side of the charging frame, the fourth fixing frame is located on the front side of the forming die, the second cylinder is installed in the fourth fixing frame, the material supporting plate is connected to a telescopic rod of the second cylinder, the material supporting plate is connected with the bottom of the forming die in a sliding mode, the connecting rod is installed on the right side of the charging frame, the connecting rod is located on the front side of the fourth fixing frame, and the power button is installed on the right side of the top of the connecting rod.

Preferably, a handle is arranged at the top of the turning plate, so that the turning plate can be opened conveniently.

(3) Advantageous effects

1. Under the drive of first cylinder, realized the automatic and even extruded purpose of charcoal, saved the manpower, can fix turning over the board through chucking mechanism to the frame that makes to feed is in the encapsulated situation, can reduce the production of charcoal raise dust on the one hand, and on the other hand can prevent that the charcoal raw materials from receiving the extrusion and will turning over the board and push open, can avoid extrusion's charcoal to fall out by oneself through stock stop.

2. The striker plate can be controlled to be automatically separated from the discharge hole through the pressing mechanism, the striker plate does not need to be manually pulled manually, and manpower is further saved.

3. Can drive chucking mechanism through extrusion mechanism for chucking mechanism is automatic to turning over the board and fix or cancel fixedly, uses manpower sparingly more.

4. Can cut the charcoal of extrusion through shutdown mechanism, conveniently collect.

5. Can hold the charcoal after the extrusion through holding in the palm material mechanism, convenience of customers cuts the charcoal.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

Fig. 3 is a cross-sectional view of a second partial body structure of the present invention.

Fig. 4 is a schematic perspective view of a part of the stock stop mechanism of the invention.

Fig. 5 is a perspective view of a third embodiment of the present invention.

Fig. 6 is a three-dimensional structural sectional view of the stock stop of the invention.

Fig. 7 is a schematic perspective view of the chucking mechanism of the present invention.

Figure 8 is an exploded view of the clamping mechanism of the present invention.

Fig. 9 is a schematic view of a first partially separated body structure of the pressing mechanism of the present invention.

Fig. 10 is an enlarged view of the invention at a.

Fig. 11 is a schematic view of a second partially separated body structure of the pressing mechanism of the present invention.

Fig. 12 is a schematic perspective view of a portion of the pressing mechanism of the present invention.

Fig. 13 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 14 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 15 is an enlarged view of the invention at B.

Fig. 16 is a schematic perspective view of the material supporting mechanism of the present invention.

The labels in the figures are: 1-a support frame, 2-a loading frame, 3-a first fixing frame, 4-a first air cylinder, 5-a first sliding rod, 6-a first sliding block, 7-a first spring, 8-a first fixing block, 9-a turning plate, 91-a receiving frame, 92-a torsion spring, 10-a material stop mechanism, 101-a fixing rod, 102-a second sliding block, 103-a second spring, 104-a material stop plate, 11-a clamping mechanism, 111-a guide block, 112-a second fixing block, 113-a third sliding block, 114-a sliding frame, 12-a pressing mechanism, 121-a third fixing block, 122-a second sliding rod, 123-a deflector rod, 124-a third spring, 13-a pressing mechanism, 131-a second fixing frame, 132-a third sliding rod, 133-a fourth spring, 134-an extrusion block, 135-a first guide rod, 136-a shifting block, 137-a fifth spring, 14-a cutting mechanism, 141-a forming die, 142-a third fixing frame, 143-a second guide rod, 144-a blade, 145-a sixth spring, 15-a material supporting mechanism, 151-a fourth fixing frame, 152-a second cylinder, 153-a material supporting plate, 154-a connecting rod and 155-a power button.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

An even extrusion molding device for producing environment-friendly charcoal is shown in figures 1-8 and comprises a support frame 1, a material loading frame 2, a first fixing frame 3, a first air cylinder 4, a first sliding rod 5, a first sliding block 6, a first spring 7, a first fixing block 8, a turning plate 9, a material receiving frame 91, a torsion spring 92, a material blocking mechanism 10 and a clamping mechanism 11, wherein the material loading frame 2 is installed in the middle of the upper portion of the support frame 1, the material loading frame 2 is used for loading charcoal raw materials, a discharge hole is formed in the right side of the material loading frame 2, the first fixing frame 3 is installed on the left side of the bottom of the material loading frame 2, the first air cylinder 4 is installed on the upper portion of the first fixing frame 3, the first air cylinder 4 is used for providing driving force, the first sliding rod 5 is installed on the telescopic rod of the first air cylinder 4, the first spring 7 is connected between the first sliding rod 5 and the telescopic rod of the first air cylinder 4, the first sliding rod 6 is installed on the right side of the first sliding rod 5, first slider 6 is used for the extrusion charcoal raw materials, first slider 6 and 2 inner wall sliding fit of material loading frame, two first fixed blocks 8 are all installed to both sides around the 2 left parts of material loading frame, 8 bilateral symmetry of two first fixed blocks, equal rotary type is connected with between two first fixed blocks 8 of bilateral symmetry and turns over board 9, it is used for sealing material loading frame 2 to turn over board 9, turn over board 9 top and install the handle, be convenient for open and turn over board 9, it is connected with torque spring 92 to turn over between board 9 and the first fixed block 8, material receiving frame 91 is installed on support frame 1 top right side, material receiving frame 91 is used for collecting extrusion's charcoal, material loading frame 2 right side is equipped with stock stop 10, stock stop 10 is used for preventing that extrusion's charcoal from falling out by oneself, be equipped with chucking mechanism 11 on turning over board 9, chucking mechanism 11 is used for fixing turning over board 9.

As shown in fig. 2, 4 and 6, the striker 10 includes a fixing rod 101, a second slider 102, a second spring 103 and a striker plate 104, the fixing rod 101 is installed on the right side of the bottom of the charging frame 2, the second slider 102 is connected to the fixing rod 101 in a sliding manner, the second spring 103 is connected between the second slider 102 and the fixing rod 101, the top end of the second spring 103 is connected with the second slider 102, the bottom end of the second spring 103 is connected with the fixing rod 101, the striker plate 104 is installed on the top of the second slider 102, the striker plate 104 is in sliding fit with the discharge hole, and the striker plate 104 is used for preventing extruded charcoal from automatically falling out.

As shown in fig. 1, 7 and 8, the chucking mechanism 11 includes a guide block 111, a second fixed block 112, a third slider 113 and a sliding frame 114, the guide block 111 is installed at the top of the turning plate 9 at the rear side, the guide block 111 is located at the front side of the handle at the rear side, the sliding frame 114 is connected to the guide block 111 in a sliding manner, two third sliders 113 are installed at the front side of the sliding frame 114, the two third sliders 113 are bilaterally symmetrical, the two second fixed blocks 112 are installed at the top of the turning plate 9 at the front side in a bilaterally symmetrical manner, the second fixed block 112 is located at the rear side of the handle at the front side, and the third slider 113 can be clamped by the second fixed block 112.

When the charcoal needs to be extruded and formed, a user firstly rotates the turning plate 9 manually to open the turning plate 9, the torsion spring 92 deforms, after the turning plate 9 is opened, the user pours the charcoal raw material into the loading frame 2, then releases the turning plate 9, under the action of the torsion spring 92, the turning plate 9 rotates and resets to enable the loading frame 2 to be in a closed state, then the user manually pushes the sliding frame 114 to move rightwards, the sliding frame 114 moves rightwards to drive the third sliding block 113 to move rightwards, the third sliding block 113 moves rightwards to be clamped into the second fixing block 112, so that the turning plate 9 is fixed to prevent the turning plate 9 from rotating automatically, after the turning plate 9 is fixed, the first air cylinder 4 is started, the telescopic rod of the first air cylinder 4 extends to drive the first sliding rod 5 to move rightwards, the first sliding block 6 moves rightwards along with the first sliding block 6 to extrude the charcoal raw material to the discharge hole, and the first spring 7 has a buffering effect, avoiding over-extruding the charcoal raw material, when the charcoal raw material is extruded to the discharge hole, a user manually pulls the second slide block 102 to move downwards, the second spring 103 is compressed, the second slide block 102 moves downwards to drive the baffle plate 104 to move downwards, so that the baffle plate 104 does not block the discharge hole, the extruded charcoal raw material can be formed through the discharge hole and fall into the material receiving frame 91, after the formed charcoal falls into the material receiving frame 91, the second slide block 102 is loosened, the second slide block 102 moves upwards to reset under the action of the second spring 103 to drive the baffle plate 104 to move upwards to reset, the baffle plate 104 blocks the discharge hole again, then the telescopic rod of the first air cylinder 4 is controlled to shorten, so that the first slide rod 5 moves leftwards to reset, the first slide rod 5 moves leftwards to reset to drive the first slide block 6 to move leftwards to reset, the steps are repeated until all the charcoal raw material is extruded and formed completely, finally, the first cylinder 4 is closed, and the molded charcoal in the take-up frame 91 is taken out. So, under the drive of first cylinder 4, realized the automatic and even extruded purpose of charcoal, saved the manpower, can fix turning over board 9 through chucking mechanism 11 to make material loading frame 2 be in the encapsulated situation, can reduce the production of charcoal raise dust on the one hand, on the other hand can prevent that the charcoal raw materials from receiving the extrusion and will turning over board 9 and push open, can avoid extrusion's charcoal to fall out by oneself through stock stop 10.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 9, 10 and 11, the material stopping mechanism 10 further includes a pressing mechanism 12, the pressing mechanism 12 is used for driving the material stopping mechanism 10, the pressing mechanism 12 includes a third fixed block 121, a second sliding rod 122, a shift lever 123 and a third spring 124, the third fixed block 121 is installed in the middle of the bottom of the material loading frame 2, the second sliding rod 122 is installed on the left side of the first slider 6, the second sliding rod 122 is slidably connected with the material loading frame 2, the shift lever 123 is slidably connected with the second sliding rod 122, the shift lever 123 is slidably connected with the third fixed block 121, the shift lever 123 is matched with the second slider 102, the shift lever 123 is used for extruding the second slider 102, the third spring 124 is connected between the shift lever 123 and the second sliding rod 122, the left end of the third spring 124 is connected with the shift lever 123, and the right end of the third spring 124 is connected with the second sliding rod 122.

When the shifting rod 123 moves rightwards to be in contact with the loading frame 2, the loading frame 2 is abutted against the shifting rod 123, the shifting rod 123 cannot move rightwards continuously, the first sliding block 6 moves rightwards to drive the second sliding rod 122 to move rightwards continuously, the third spring 124 stretches, when the first sliding block 6 moves leftwards to reset, the second sliding rod 122 moves leftwards to reset under the action of the third spring 124, and when the third spring 124 returns to a normal state, the second sliding rod 122 moves leftwards to reset to drive the shifting rod 123 to move leftwards to reset. Therefore, the striker plate 104 can be controlled to be automatically separated from the discharge hole through the pressing mechanism 12, the striker plate 104 does not need to be manually pulled manually, and manpower is further saved.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 11, 12 and 13, the clamping mechanism 11 is further provided with a pressing mechanism 13, the pressing mechanism 13 is used for pressing the clamping mechanism 11, the pressing mechanism 13 includes a second fixing frame 131, a third sliding rod 132, a fourth spring 133, a pressing block 134, a first guiding rod 135, a shifting block 136 and a fifth spring 137, a first guiding rod 135 is installed on the left side of the first sliding block 6, the first guiding rod 135 is located on the rear side of the second sliding rod 122, the first guiding rod 135 is slidably connected with the loading frame 2, the shifting block 136 is installed on the first guiding rod 135, the second fixing frame 131 is installed on the left side of the upper portion of the loading frame 2, the third sliding rod 132 is slidably connected in the second fixing frame 131, the shifting block 136 is matched with the third sliding rod 132, the shifting block 136 can abut against the third sliding rod 132, the third sliding rod 132 is sleeved with the fourth spring 133, the left end of the fourth spring 133 is connected with the third sliding rod 132, the right end of the fourth spring 133 is connected with the second fixed frame 131, the right side of the third sliding rod 132 is provided with a pressing block 134, the sliding frame 114 can be pressed by the pressing block 134, and a fifth spring 137 is connected between the sliding frame 114 and the top of the turning plate 9 at the rear side.

Initially, the shifting block 136 abuts against the third sliding rod 132, the fourth spring 133 is in a stretching state, when the first sliding block 6 moves rightwards, the first guide rod 135 is driven to move rightwards, the shifting block 136 moves rightwards along with the shifting block and is separated from the third sliding rod 132, under the action of the fourth spring 133, the third sliding rod 132 moves rightwards and drives the extrusion block 134 to move rightwards, the extrusion block 134 moves rightwards and drives the extrusion sliding frame 114 to move rightwards, so that the third sliding block 113 is clamped in the second fixed block 112, the fifth spring 137 is compressed, after the extrusion work of charcoal is finished, the first sliding block 6 moves leftwards and returns along with the left movement and drives the first guide rod 135 to move leftwards and return along with the left movement and drives the third sliding rod 132 to move leftwards and return along with the extrusion block 134 and is separated from the sliding frame 114, under the action of the fifth spring 137, the sliding frame 114 moves leftwards and returns along with the action of the fifth spring 137, thereby eliminating the securing of the flap 9. So, can drive chucking mechanism 11 through extrusion mechanism 13 for chucking mechanism 11 is automatic to turning over board 9 and fix or cancel fixed, uses manpower sparingly more.

As shown in fig. 1, 2, 14 and 15, the charcoal cutting device further comprises a cutting mechanism 14, the cutting mechanism 14 is used for cutting extruded charcoal, the cutting mechanism 14 comprises a forming die 141, a third fixing frame 142, a second guide rod 143, a blade 144 and a sixth spring 145, the forming die 141 is mounted on the right side of the charging frame 2, the forming die 141 is communicated with the discharging hole, the third fixing frame 142 is mounted on the top of the forming die 141, the second guide rod 143 is mounted at the bottom of the third fixing frame 142, the blade 144 is connected to the second guide rod 143 in a sliding manner, the blade 144 is used for cutting the extruded charcoal, the sixth spring 145 is sleeved on the upper portion of the second guide rod 143, the top end of the sixth spring 145 is connected to the bottom of the third fixing frame 142, and the bottom end of the sixth spring 145 is connected to the top end of the blade 144.

The charcoal after the extrusion molding can be moved to the forming die 141 from the discharge hole, the forming die 141 can better shape the charcoal, after the charcoal after the extrusion molding is pushed out for a certain length, a user manually pulls the blade 144 to move downwards, the sixth spring 145 stretches, the blade 144 cuts the charcoal, after the cutting is finished, the blade 144 is loosened, and under the action of the sixth spring 145, the blade 144 moves upwards to reset. In this way, the charcoal formed by extrusion can be cut by the cutting mechanism 14, and the charcoal is convenient to collect.

As shown in fig. 1, 2 and 16, the charcoal extrusion molding machine further comprises a material supporting mechanism 15, the material supporting mechanism 15 is used for supporting extruded charcoal, the material supporting mechanism 15 comprises a fourth fixing frame 151, a second cylinder 152, a material supporting plate 153, a connecting rod 154 and a power button 155, the fourth fixing frame 151 is installed on the right side of the material loading frame 2, the fourth fixing frame 151 is located on the front side of the molding die 141, the second cylinder 152 is installed in the fourth fixing frame 151, the material supporting plate 153 is connected to an expansion rod of the second cylinder 152, the material supporting plate 153 is used for supporting the extruded charcoal, the material supporting plate 153 is connected with the bottom of the molding die 141 in a sliding manner, the connecting rod 154 is installed on the right side of the material loading frame 2, the connecting rod 154 is located on the front side of the fourth fixing frame 151, the power button 155 is installed on the right side of the top of the connecting rod 154, and the power button 155 is used for controlling the second cylinder 152.

The user presses the power button 155, starts the second cylinder 152, and the telescopic link extension of second cylinder 152 drives the flitch 153 and moves right, and the flitch 153 can hold the charcoal after the extrusion, and at this moment, the user again manually pulls blade 144 and moves down to cut the charcoal, and after the cutting finishes, the telescopic link of control second cylinder 152 shortens to drive the flitch 153 and moves left and resets, and finally, presses the power button 155 once more, closes the second cylinder 152. So, can hold the charcoal after the extrusion through holding in the palm material mechanism 15, convenience of customers cuts the charcoal.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.