阅读说明：本技术 一种色块生产加工装置 (Color lump production processingequipment ) 是由 委红霞 于 2020-04-03 设计创作，主要内容包括：本发明涉及一种色块生产领域,尤其涉及一种色块生产加工装置。本发明要解决的技术问题是提供一种色块生产加工装置。一种色块生产加工装置,包括转换式底模机构,卸料机构,传送带,无料化压块机构,控制屏和储料舱；转换式底模机构后中部设置有卸料机构；转换式底模机构前端中上方设置有传送带；转换式底模机构上方设置有无料化压块机构。本装置实现了自动控量进行色饼的压制,同时可以进行原料压制时的二次收集,配合压制后的自动转移；大大提高了色饼压制后的质量,同时提高了生产效率,无需人工手动取动色饼。(The invention relates to the field of color block production, in particular to a color block production processing device. The invention aims to solve the technical problem of providing a color block production processing device. A color lump production and processing device comprises a conversion type bottom die mechanism, a discharging mechanism, a conveyor belt, a material-free briquetting mechanism, a control screen and a storage cabin; the middle part behind the conversion type bottom die mechanism is provided with a discharging mechanism; a conveyor belt is arranged above the middle of the front end of the conversion bottom die mechanism; a material-free briquetting mechanism is arranged above the conversion type bottom die mechanism. The device realizes automatic control of the amount to press the color cake, and can perform secondary collection during raw material pressing and match with automatic transfer after pressing; the quality of the pressed color cake is greatly improved, the production efficiency is improved, and the color cake does not need to be manually taken.)

1. A color lump production and processing device comprises a conveyor belt (3), a control screen (5) and a storage cabin (6), and is characterized by also comprising a conversion type bottom die mechanism (1), a discharging mechanism (2) and a material-free briquetting mechanism (4); the rear middle part of the conversion bottom die mechanism (1) is provided with a discharging mechanism (2); a conveyor belt (3) is arranged above the middle of the front end of the conversion bottom die mechanism (1); a material-free briquetting mechanism (4) is arranged above the conversion type bottom die mechanism (1); a control screen (5) is arranged on the left side of the bottom of the material-free briquetting mechanism (4); a material storage cabin (6) is arranged on the left side of the top of the material-free briquetting mechanism (4).

2. The color block production processing device according to claim 1, wherein the conversion bottom die mechanism (1) comprises a bottom frame (101), a telescopic rod (102), a first gear (103), a second gear (104), a third gear (105), a fourth gear (106), a linear guide rail (107), a fifth gear (108), a first shaft rod (109), a first transmission rod (1010), a universal ball rod (1011), a jacket plate group (1012), a first outer loop rod (1013), a first inner loop rod (1014), a bottom die plate (1015), a second outer loop rod (1016), an electric rotating roller (1017), a first support plate (1018), a first transmission wheel (1019), a belt (1020), a second transmission wheel (1021), a second inner loop rod (1022), a third outer loop rod (1023) and a second support plate (1024); the right middle part in the bottom frame (101) is rotationally connected with the telescopic rod (102); the rear left side in the top of the bottom frame (101) is inserted into the second outer sleeve rod (1016); the right side of the telescopic rod (102) is rotationally connected with the first gear (103); the left side of the telescopic rod (102) is rotationally connected with a fourth gear (106); the top of the first gear (103) is meshed with the second gear (104), and the left side and the right side of the second gear (104) are connected with the chassis (101); the top of the second gear (104) is meshed with the third gear (105); the left side of the fourth gear (106) is welded with the linear guide rail (107) through a fixed rod, and the left side and the right side of the top of the linear guide rail (107) are connected with the bottom frame (101); the bottom of the fourth gear (106) is meshed with a fifth gear (108); the interior of the fifth gear (108) is inserted into the first shaft lever (109), and the right side of the outer surface and the left side of the outer surface of the first shaft lever (109) are connected with the chassis (101); the left side of the first shaft lever (109) is inserted into the first transmission rod (1010); the top of the left side of the first transmission rod (1010) is inserted into a universal club (1011); the left side of the outer surface of the universal ball rod (1011) is in sliding connection with the jacket plate set (1012); the left side of the jacket plate group (1012) is welded with a first outer sleeve rod (1013), and the middle part of the outer surface of the first outer sleeve rod (1013) is connected with the underframe (101); the inside of the first outer loop bar (1013) is sleeved with the first inner loop bar (1014), and the bottom of the first inner loop bar (1014) is connected with the chassis (101); the top of the first outer sleeve rod (1013) is welded with the bottom template (1015); the interior of the second outer sleeve rod (1016) is rotationally connected with the electric rotating roller (1017); the top of the outer surface of the electric rotating roller (1017) is spliced with a first supporting plate (1018); the bottom of the electric rotating roller (1017) is rotationally connected with a first driving wheel (1019); the outer surface of the first driving wheel (1019) is in transmission connection with a belt (1020); the inner right side of the belt (1020) is in transmission connection with a second transmission wheel (1021); the top axle center of the second driving wheel (1021) is spliced with a second inner loop bar (1022); the middle part of the outer surface of the second inner sleeved rod (1022) is sleeved with the third outer sleeved rod (1023), and the bottom of the outer surface of the third outer sleeved rod (1023) is connected with the chassis (101); the top of the outer surface of the second inner loop bar (1022) is spliced with a second support plate (1024); when the belt (1020) is combined with the first transmission wheel (1019) and the second transmission wheel (1021), the belt (1020) is in a torsional state, namely, the first transmission wheel (1019) and the second transmission wheel (1021) can synchronously rotate reversely when being driven to rotate; the middle part of the outer surface of the telescopic rod (102) is connected with the material-free briquetting mechanism (4); the inner side of the third gear (105) is connected with the discharging mechanism (2).

3. The color lump production processing device according to claim 2, wherein the discharging mechanism (2) comprises a second shaft rod (201), a second transmission rod (202), a first slide block (203), a third transmission rod (204), a second slide block (205), a first chute (206), a side clamping plate (207), a T-shaped push rod (208), a limiting column (209), an inverted T-shaped base (2010) and a second chute (2011); the rear side of the second shaft lever (201) is inserted into a second transmission rod (202); the rear upper part of the second transmission rod (202) is rotationally connected with the first sliding block (203); the outer surface of the first sliding block (203) is in sliding connection with a third transmission rod (204); the upper part in the third transmission rod (204) is in sliding connection with a second sliding block (205); the rear side of the second sliding block (205) is rotationally connected with the T-shaped push rod (208) through a rotating shaft; the front end of the T-shaped push rod (208) is provided with a side clamping plate (207); a first sliding groove (206) is formed in the middle of the inner part of the side clamping plate (207); a limiting column (209) is arranged in the right middle part in the T-shaped push rod (208); the rear side and the bottom of the side clamping plate (207) are connected with an inverted T-shaped base (2010); a second sliding groove (2011) is formed in the middle of the inner portion of the inverted T-shaped base (2010), and the inner portion of the second sliding groove (2011) is connected with the limiting column (209); the front part of the second shaft lever (201) is connected with a third gear (105); the front part of the third transmission rod (204) is connected with the underframe (101); the bottom of the inverted T-shaped base (2010) is connected with the chassis (101).

4. The color block production processing device according to claim 3, characterized in that the material-free pressing block mechanism (4) comprises a top frame (401), a motor (402), a third driving wheel (403), a worm (404), a turbine (405), a fourth driving wheel (406), a fifth driving wheel (407), a sixth driving wheel (408), a fourth driving rod (409), a third slider (4010), a special-shaped slide rod (4011), an outer sliding sleeve (4012), a rack bar (4013), a fourth slider (4014), a cylindrical slide rod (4015), a sixth gear (4016), a third shaft rod (4017), a feeding head (4018), a forming mechanism (4019) and an upper die sleeve (4020); the bottom of the right side in the top frame (401) is connected with a motor (402) through a bolt; an upper die sleeve (4020) is arranged in the middle of the bottom of the top frame (401); the front end axle center of the motor (402) is rotationally connected with a third driving wheel (403); the front end axle center of the third driving wheel (403) is rotationally connected with the worm (404); the upper part of the third driving wheel (403) is in transmission connection with a fourth driving wheel (406); the bottom of the worm (404) is meshed with the worm wheel (405); the left side of the fourth driving wheel (406) is in transmission connection with a fifth driving wheel (407); the lower part of the fifth driving wheel (407) is rotationally connected with a sixth driving wheel (408); the front end axle center of the sixth driving wheel (408) is in transmission connection with a fourth driving rod (409); the front bottom of the fourth transmission rod (409) is in transmission connection with the third sliding block (4010); the outer surface of the third sliding block (4010) is in sliding connection with the special-shaped sliding rod (4011); the rear side of the outer surface of the special-shaped sliding rod (4011) is in sliding connection with an outer sliding sleeve (4012); the middle lower part of the front end of the special-shaped sliding rod (4011) is in sliding connection with the toothed bar (4013); the right side of the rear end of the rack bar (4013) is welded with a fourth sliding block (4014); the front end of the rack bar (4013) is meshed with a sixth gear (4016); the inside of the fourth sliding block (4014) is in sliding connection with a cylindrical sliding rod (4015); the interior of the sixth gear (4016) is inserted into a third shaft lever (4017), and the upper part of the outer surface and the middle lower part of the outer surface of the third shaft lever (4017) are connected with a special-shaped sliding rod (4011); the bottom of the third shaft lever (4017) is sleeved with a forming mechanism (4019); the upper left part in the upper die sleeve (4020) is spliced with a feed head (4018); the cylindrical sliding rod (4015) inclines downwards from left to right; the left side of the bottom of the top frame (401) is connected with the control screen (5); the left side of the top frame (401) is connected with a material storage cabin (6); the left side of the turbine (405) is connected with the telescopic rod (102).

5. The apparatus of claim 4, wherein the molding mechanism (4019) comprises a pressing block holder (401901), a molding plate (401902), a bar (401903), a scraper (401904), a spring (401905), a first micro-push rod (401906) and a second micro-push rod (401907); the bottom end of the pressing block seat (401901) is provided with a forming plate (401902); the bottom of the left side in the pressure block seat (401901) is rotationally connected with the scraper (401904); four bars (401903) are equidistantly arranged at the bottom of the forming plate (401902); the left side of the top of the forming plate (401902) is welded with a first micro push rod (401906), and the top of the first micro push rod (401906) is connected with a pressure block seat (401901); the top right side of the forming plate (401902) is welded with a second micro push rod (401907), and the top of the second micro push rod (401907) is connected with a pressure block seat (401901); three springs (401905) are arranged above the right end of the scraping plate (401904); the scraper (401904) and the spring (401905) are symmetrically arranged on the central axis of the pressure block seat (401901); the top middle part of the pressing block seat (401901) is connected with a third shaft rod (4017).

6. The apparatus for producing a color block according to claim 5, wherein the left side top of the squeegee (401904) is inclined downward to the right, and a waisted intrados is provided at the inclined bottom.

7. The apparatus for producing color block according to claim 6, wherein the front right portion of the first support plate (1018) and the front left portion of the second support plate (1024) are each provided with a quarter of an intrados surface.

8. The apparatus for producing and processing color block according to claim 7, wherein the second runner (2011) is in a V shape, and has a straight groove extending in the upper left and upper right.

Technical Field

The invention relates to the field of color block production, in particular to a color block production processing device.

Background

The color block has the condensation characteristic and has the color improvement effect when in use; when the color block is pressed into blocks, the raw materials are added into the device mould firstly, and then the raw materials in the device mould are pressed into blocks;

Disclosure of Invention

The invention aims to overcome the defects that in the prior art, excess materials are always left on the wall surface when feeding, so that the quality of color blocks after briquetting is different, and the quality of the color blocks cannot be accurately ensured; the invention also provides a device for producing and processing the color block, which is used for solving the technical problem of providing a device for producing and processing the color block.

The invention is achieved by the following specific technical means:

a color lump production and processing device comprises a conversion type bottom die mechanism, a discharging mechanism, a conveyor belt, a material-free briquetting mechanism, a control screen and a storage cabin; the middle part behind the conversion type bottom die mechanism is provided with a discharging mechanism; a conveyor belt is arranged above the middle of the front end of the conversion bottom die mechanism; a material-free briquetting mechanism is arranged above the conversion type bottom die mechanism; a control screen is arranged on the left side of the bottom of the material-free briquetting mechanism; and a material storage cabin is arranged on the left side of the top of the material-free briquetting mechanism.

Further, the conversion type bottom die mechanism comprises a bottom frame, an expansion link, a first gear, a second gear, a third gear, a fourth gear, a linear guide rail, a fifth gear, a first shaft rod, a first transmission rod, a universal ball rod, a clamping sleeve plate group, a first outer sleeve rod, a first inner sleeve rod, a bottom die plate, a second outer sleeve rod, an electric rotating roller, a first supporting plate, a first transmission wheel, a belt, a second transmission wheel, a second inner sleeve rod, a third outer sleeve rod and a second supporting plate; the right middle part in the bottom frame is rotationally connected with the telescopic rod; the rear left side in the top of the underframe is spliced with the second outer loop bar; the right side of the telescopic rod is rotationally connected with the first gear; the left side of the telescopic rod is rotationally connected with the fourth gear; the top of the first gear is meshed with the second gear, and the left side and the right side of the second gear are both connected with the underframe; the top of the second gear is meshed with the third gear; the left side of the fourth gear is welded with the linear guide rail through a fixed rod, and the left side and the right side of the top of the linear guide rail are both connected with the bottom frame; the bottom of the fourth gear is meshed with the fifth gear; the interior of the fifth gear is spliced with the first shaft rod, and the right side of the outer surface of the first shaft rod and the middle left side of the outer surface of the first shaft rod are connected with the underframe; the left side of the first shaft lever is inserted with the first transmission rod; the top of the left side of the first transmission rod is inserted into the universal ball arm; the left side of the outer surface of the universal ball rod is in sliding connection with the jacket plate group; the left side of the jacket plate group is welded with the first outer sleeve rod, and the middle part of the outer surface of the first outer sleeve rod is connected with the underframe; the interior of the first outer loop bar is sleeved with the first inner loop bar, and the bottom of the first inner loop bar is connected with the underframe; the top of the first outer loop bar is welded with the bottom template; the interior of the second outer loop bar is rotationally connected with the electric rotating roller; the top of the outer surface of the electric rotary roller is spliced with the first supporting plate; the bottom of the electric rotating roller is rotationally connected with the first driving wheel; the outer surface of the first driving wheel is in transmission connection with a belt; the inner right side of the belt is in transmission connection with a second transmission wheel; the top axle center of the second driving wheel is inserted with the second inner loop bar; the middle part of the outer surface of the second inner loop bar is sleeved with a third outer loop bar, and the bottom of the outer surface of the third outer loop bar is connected with the underframe; the top of the outer surface of the second inner loop bar is inserted into the second supporting plate; when the belt is combined with the first transmission wheel and the second transmission wheel, the belt is in a torsional state, namely the first transmission wheel and the second transmission wheel can synchronously rotate reversely when being driven to rotate; the middle part of the outer surface of the telescopic rod is connected with a material-free briquetting mechanism; the inner side of the third gear is connected with the discharging mechanism.

Further, the discharging mechanism comprises a second shaft lever, a second transmission rod, a first sliding block, a third transmission rod, a second sliding block, a first sliding chute, a side clamping plate, a T-shaped push rod, a limiting column, an inverted T-shaped base and a second sliding chute; the rear side of the second shaft lever is spliced with a second transmission rod; the rear upper part of the second transmission rod is rotationally connected with the first sliding block; the outer surface of the first sliding block is in sliding connection with the third transmission rod; the upper part in the third transmission rod is in sliding connection with the second sliding block; the rear side of the second sliding block is rotationally connected with the T-shaped push rod through a rotating shaft; the front end of the T-shaped push rod is provided with a side clamping plate; the middle part in the side clamping plate is provided with a first sliding chute; a limiting column is arranged in the right middle part in the T-shaped push rod; the rear side and the bottom of the side clamping plate are both connected with the inverted T-shaped base; a second sliding groove is formed in the middle of the inner portion of the inverted T-shaped base, and the inner portion of the second sliding groove is connected with the limiting column; the front part of the second shaft rod is connected with a third gear; the front part of the third transmission rod is connected with the underframe; the bottom of the inverted T-shaped base is connected with the bottom frame.

Further, the material-free briquetting mechanism comprises a top frame, a motor, a third transmission wheel, a worm, a turbine, a fourth transmission wheel, a fifth transmission wheel, a sixth transmission wheel, a fourth transmission rod, a third sliding block, a special-shaped sliding rod, an outer sliding sleeve, a toothed bar, a fourth sliding block, a cylindrical sliding rod, a sixth gear, a third shaft rod, a feeding head, a forming mechanism and an upper die sleeve; the bottom of the right side in the top frame is connected with a motor through a bolt; an upper die sleeve is arranged in the middle of the top frame bottom; the front end axle center of the motor is rotationally connected with the third driving wheel; the axle center of the front end of the third transmission wheel is rotationally connected with the worm; the upper part of the third driving wheel is in transmission connection with a fourth driving wheel; the bottom of the worm is meshed with the turbine; the left side of the fourth driving wheel is in transmission connection with the fifth driving wheel; the lower part of the fifth driving wheel is rotationally connected with the sixth driving wheel; the axle center of the front end of the sixth transmission wheel is in transmission connection with the fourth transmission rod; the front bottom of the fourth transmission rod is in transmission connection with the third sliding block; the outer surface of the third sliding block is in sliding connection with the special-shaped sliding rod; the rear side of the outer surface of the special-shaped sliding rod is in sliding connection with the outer sliding sleeve; the middle lower part of the front end of the special-shaped sliding rod is in sliding connection with the toothed bar; the right side of the rear end of the toothed bar is welded with the fourth sliding block; the front end of the toothed bar is meshed with the sixth gear; the inside of the fourth sliding block is in sliding connection with the cylindrical sliding rod; the interior of the sixth gear is spliced with a third shaft rod, and the upper part of the outer surface and the middle lower part of the outer surface of the third shaft rod are connected with the special-shaped sliding rod; the bottom of the third shaft lever is sleeved with the forming mechanism; the upper left part in the upper die sleeve is spliced with the feeding head; the cylindrical sliding rod inclines downwards from left to right; the left side of the bottom of the top frame is connected with the control screen; the left side of the top frame is connected with a material storage cabin; the left side of the turbine is connected with a telescopic rod.

Furthermore, the forming mechanism comprises a pressing block seat, a forming plate, a bar column, a scraping plate, a spring, a first micro push rod and a second micro push rod; a forming plate is arranged at the bottom end of the pressing block seat; the bottom of the left side in the pressing block seat is rotationally connected with the scraping plate; four columns are equidistantly arranged at the bottom of the forming plate; the left side in the top of the forming plate is welded with the first miniature push rod, and the top of the first miniature push rod is connected with the pressing block seat; the right side in the top of the forming plate is welded with a second miniature push rod, and the top of the second miniature push rod is connected with the pressing block seat; three springs are arranged above the right end of the scraping plate; the scraping plates and the springs are symmetrically arranged on the central axis of the pressing block seat; the middle part of the top of the pressing block seat is connected with a third shaft rod.

Furthermore, the top of the left side of the scraper is arranged in a downward-right inclined manner, and the inclined bottom is provided with a waisted inner arc surface.

Furthermore, the right front part of the first supporting plate and the left front part of the second supporting plate are both provided with a quarter of intrados.

Furthermore, the second sliding groove is in a V shape, and the upper left side and the upper right side are provided with a straight groove for extension.

Compared with the prior art, the invention has the following beneficial effects:

1. the method aims to solve the problems that in the prior art, excess materials are always left on the wall surface when feeding, so that the quality of color blocks after briquetting is different, and the quality of the color blocks cannot be accurately ensured; after the color blocks are pressed into blocks, the color blocks are often manually taken away by an ejector pin after being ejected out, but the working efficiency is influenced, the surface of the pressed color blocks has certain granular feeling, and the sucking disc is difficult to directly suck away, so that the production efficiency is further reduced;

2. the conversion type bottom die mechanism, the discharging mechanism and the material-free briquetting mechanism are designed, when the color block production processing device is used, the color block production processing device is placed at a position to be used, after the color block production processing device is fixed, a conveying belt is externally connected with a fixing frame and then is externally connected with a power supply, mixed raw materials are placed in a storage cabin, a discharging mechanism is externally connected to the right side of the bottom of the storage cabin, a pump body and other parts which can be matched with discharging are controlled by a control screen to operate, then the raw materials are discharged onto the material-free briquetting mechanism during pressing, the raw materials are pressed by matching with the conversion type bottom die mechanism, and color blocks are pushed onto the conveying;

3. the device realizes automatic control of the amount to press the color cake, and can perform secondary collection during raw material pressing and match with automatic transfer after pressing; the quality of the pressed color cake is greatly improved, the production efficiency is improved, and the color cake does not need to be manually taken.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a convertible bottom die mechanism according to the present invention;

FIG. 3 is a schematic structural view of a discharging mechanism of the present invention;

FIG. 4 is a schematic structural diagram of the material-free briquetting mechanism of the invention;

FIG. 5 is a schematic structural view of a forming mechanism of the present invention;

FIG. 6 is a schematic view of the inverted T-shaped base and the second chute of the present invention;

FIG. 7 is a top view of the first support plate and the second support plate of the present invention;

fig. 8 is an enlarged view of region D of the present invention.

The labels in the figures are: 1-conversion bottom die mechanism, 2-discharging mechanism, 3-conveyor belt, 4-material-free briquetting mechanism, 5-control screen, 6-storage cabin, 101-bottom frame, 102-telescopic rod, 103-first gear, 104-second gear, 105-third gear, 106-fourth gear, 107-linear guide rail, 108-fifth gear, 109-first shaft rod, 1010-first drive rod, 1011-universal ball rod, 1012-jacket plate group, 1013-first outer loop rod, 1014-first inner loop rod, 1015-bottom die plate, 1016-second outer loop rod, 1017-electric rotating roller, 1018-first support plate, 1019-first drive wheel, 1020-belt, 1021-second drive wheel, 1022-second inner loop rod, 1023-a third outer slide bar, 1024-a second support plate, 201-a second shaft bar, 202-a second drive rod, 203-a first slide block, 204-a third drive rod, 205-a second slide block, 206-a first slide groove, 207-a side clamping plate, 208-a T push rod, 209-a limit column, 2010-an inverted T base, 2011-a second slide groove, 401-a top frame, 402-a motor, 403-a third drive wheel, 404-a worm, 405-a turbine, 406-a fourth drive wheel, 407-a fifth drive wheel, 408-a sixth drive wheel, 409-a fourth drive rod, 4010-a third slide block, 4011-a profiled slide bar, 4012-an outer slide sleeve, 4013-a toothed bar, 4014-a fourth slide block, 4015-a cylindrical slide bar, 4016-a sixth gear, 4017-third shaft rod, 4018-feed head, 4019-forming mechanism, 4020-upper die sleeve, 401901-pressure block seat, 401902-forming plate, 401903-bar, 401904-scraper, 401905-spring, 401906-first micro push rod, and 401907-second micro push rod.

Detailed Description

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