CN220008975U - Adjustable indentation device - Google Patents

Abstract

The utility model provides an adjustable indentation device, which relates to the technical field of carton processing and aims to solve the problem that the width of a line cannot be adjusted during pre-pressing when a paperboard is pre-pressed in most production lines, and comprises a conveying structure; the inside swing joint of conveying structure has control structure, and conveying structure's top fixedly connected with control mechanism, control mechanism respectively with elevating system, reciprocating mechanism swing joint, and reciprocating mechanism swing joint is in elevating system's inside, control mechanism includes: the motor, the drive shaft, the gear, the telescopic link, the fixed block, the drive shaft is two sets of settings, and motor fixed connection is in the one end of drive shaft, two sets of gears of fixedly connected with respectively in the drive shaft, the bottom fixedly connected with telescopic link of fixed block can control clamp plate A, clamp plate B simultaneously laminating to the top of conveyer belt through telescopic link and motor respectively, can also increase clamp plate A's pressfitting area through clamp plate B, reinforcing clamp plate A and clamp plate B's suitability.

Description

Adjustable indentation device

Technical Field

The utility model relates to the technical field of carton processing, in particular to an adjustable indentation device.

Background

The paper box is the most widely used packaging product, and has various specifications and models such as corrugated paper boxes, single-layer paper boxes and the like according to different materials, and the paper box needs to be subjected to indentation treatment in advance to the whole paper board in the production process, so that the paper box is convenient to fold and assemble in the later period.

The inventor finds that when the existing adjustable indentation device is used, the width of the line cannot be adjusted when the paperboard is pre-extruded in most production lines, and only the pressing plates used in indentation treatment can be replaced uniformly, so that the cost of carton processing is affected.

Disclosure of Invention

The utility model aims to provide an adjustable indentation device which solves the problem that the width of a line cannot be adjusted when the paperboard is pre-extruded in most production lines proposed in the background art.

The purpose and the efficacy of the adjustable indentation device are achieved by the following specific technical means:

an adjustable indentation apparatus comprising a delivery structure; the inside swing joint of conveying structure has control structure, and conveying structure's top fixedly connected with control mechanism, control mechanism respectively with elevating system, reciprocating mechanism swing joint, and reciprocating mechanism swing joint is in elevating system's inside, control mechanism includes: the motor, drive shaft, gear, telescopic link, fixed block, the drive shaft is two sets of settings, and motor fixed connection is in the one end of drive shaft, and two sets of gears of fixedly connected with respectively in the drive shaft, the bottom fixedly connected with telescopic link of fixed block.

Further, the conveying structure includes: the conveying device comprises a conveying box, a connecting shaft, a conveying belt, a connecting groove, fixing plates and limiting grooves A, wherein the connecting shaft is movably connected to two sides of the conveying box respectively, the conveying belt is movably connected to the connecting shaft, the connecting groove is formed in two sides of the conveying box respectively, two groups of fixing plates are fixedly connected to the top of the conveying box, and the limiting grooves A are formed in the fixing plates simultaneously.

Further, the control structure includes: connecting plate A, the guide bar, the limiting plate, the layer board, the control rod, the nut, the slider, connecting plate A is fixed connection in the both sides of conveyer box respectively, connecting plate A's top is fixedly connected with guide bar and control rod respectively, while fixedly connected with limiting plate on the guide bar, rotate on the control rod and be connected with the nut, the both sides of layer board are fixedly connected with slider respectively, slider and guide bar sliding connection simultaneously, and slider and nut swing joint simultaneously, the layer board sets up the inboard at the conveyer belt, the control rod adopts the screw rod, its effect is, when the nut rotates, can adjust the position of nut on the control rod, the nut is the echelonment setting simultaneously, and the echelonment nut sets up the upper and lower both sides at the slider respectively, its effect is, can carry the layer board through the nut and go up and down.

Further, the control mechanism further includes: the supporting rod, the link, the drive belt, the top at the conveyer box of bracing piece fixed connection respectively, fixed block fixed connection is in one side of bracing piece, the opposite side fixedly connected with link of bracing piece, the link simultaneously with motor fixed connection, the both ends of drive belt respectively with drive shaft swing joint, the motor adopts servo motor, its effect is, servo motor can control the speed, the position accuracy is very accurate, the drive belt adopts hinge structure, its effect is, can control two sets of drive shafts simultaneously through the drive belt and rotate, the gear adopts incomplete gear, its effect is, when the gear lasts to rotate, can automatic switch gear and rack frame's meshing relation.

Further, the elevating mechanism includes: clamp plate A, the sliding tray, the fretwork groove, the dead lever, the elastic component, connecting plate B, clamp plate A's both sides are fixedly connected with connecting plate B respectively, connecting plate B fixed connection is in the bottom of telescopic link, clamp plate A's is equipped with the sliding tray respectively all around, the fretwork groove sets up respectively in clamp plate A's both sides, clamp plate A passes through the fretwork groove, spacing groove A and fixed plate sliding connection, the dead lever passes through sliding tray fixed connection in clamp plate A, swing joint has the elastic component on the dead lever, the elastic component adopts the spring, its effect is, can control clamp plate B and stopper to slide to the top automatically through the elastic component.

Further, the reciprocating mechanism includes: clamp plate B, the stopper, the preformed hole, rack frame, spacing groove B, clamp plate B's fixedly connected with stopper all around respectively, be equipped with the preformed hole in the stopper, the stopper passes through the preformed hole, dead lever sliding connection is in the sliding tray, clamp plate B sets up in clamp plate A, clamp plate B's top is fixedly connected with rack frame respectively, rack frame meshes with the gear simultaneously, clamp plate B's both sides are equipped with spacing groove B, clamp plate B passes through spacing groove B simultaneously and fixed plate sliding connection, clamp plate B sets up at the top of conveyer belt simultaneously with clamp plate A, the stopper is the echelonment setting, its effect is, through the stopper that the echelonment set up, when can make the stopper carry out the slip, carry out spacingly to clamp plate B, prevent clamp plate B from taking place the skew when the slip.

Compared with the prior structure, the utility model has the following advantages:

1. according to the utility model, the control mechanism is arranged, the pressing plate A can be controlled to be attached to the bottom through the telescopic rod, meanwhile, when the pressing plate A is attached to the conveying belt, the motor can drive the gear to rotate, the rack frame and the pressing plate B are controlled through the gear to be attached to the top of the conveying belt, the pressing area of the pressing plate A can be increased through the pressing plate B, and the applicability of the pressing plate A and the pressing plate B is enhanced.

2. According to the utility model, the control structure is arranged, the connecting plate A can be controlled to lift through the nuts and the control rods, meanwhile, the conveying belt can be set off through the connecting plate A, so that the phenomenon that the conveying belt sinks towards the bottom when the carton is subjected to pre-pressing treatment is avoided, and the depth of indentation cannot be effectively ensured to be suitable for folding the carton.

3. The reciprocating mechanism can control the rack frame and the pressing plate B to slide towards the bottom through the motor and the gear, and meanwhile, after the gear and the rack frame are in a disconnected engagement relationship, the pressing plate B can also be automatically reset through the control of the elastic piece, so that the operation mode is simpler.

Drawings

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

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

FIG. 3 is a schematic view of a conveying structure according to the present utility model;

FIG. 4 is a schematic structural view of a control structure according to the present utility model;

FIG. 5 is a schematic view of the elevating mechanism of the present utility model;

FIG. 6 is a schematic diagram of a control mechanism according to the present utility model;

fig. 7 is a schematic structural view of the reciprocating mechanism of the present utility model.

In the figure:

1. a conveying structure; 101. a delivery box; 102. a connecting shaft; 103. a conveyor belt; 104. a connecting groove; 105. a fixing plate; 106. a limit groove A;

2. a control structure; 201. a connecting plate A; 202. a guide rod; 203. a limiting plate; 204. a supporting plate; 205. a control lever; 206. a nut; 207. a slide block;

3. a lifting mechanism; 301. a pressing plate A; 302. a sliding groove; 303. a hollow groove; 304. a fixed rod; 305. an elastic member; 306. a connecting plate B;

4. a control mechanism; 401. a support rod; 402. a connecting frame; 403. a motor; 404. a drive shaft; 405. a gear; 406. a transmission belt; 407. a telescopic rod; 408. a fixed block;

5. a reciprocating mechanism; 501. a pressing plate B; 502. a limiting block; 503. a preformed hole; 504. a rack frame; 505. and a limit groove B.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Referring to fig. 1 to 7, an adjustable indentation apparatus comprises a conveying structure 1; the inside swing joint of conveying structure 1 has control structure 2, and conveying structure 1's top fixedly connected with control mechanism 4, control mechanism 4 respectively with elevating system 3, reciprocating mechanism 5 swing joint, and reciprocating mechanism 5 swing joint is in elevating system 3's inside, control mechanism 4 includes: the motor 403, the drive shaft 404, the gear 405, the telescopic link 407, the fixed block 408, the drive shaft 404 is two sets of settings, and motor 403 fixed connection is in the one end of drive shaft 404, is connected with two sets of gears 405 on the drive shaft 404 respectively, and the bottom of fixed block 408 is fixedly connected with telescopic link 407.

As shown in fig. 3, wherein the conveying structure 1 comprises: the conveying box 101, the connecting shaft 102, the conveying belt 103, the connecting grooves 104, the fixing plates 105 and the limiting grooves A106 are respectively and movably connected with the connecting shaft 102 on two sides of the conveying box 101, the conveying belt 103 is movably connected onto the connecting shaft 102, the connecting grooves 104 are respectively arranged on two sides of the conveying box 101, two groups of fixing plates 105 are fixedly connected to the top of the conveying box 101, and the limiting grooves A106 are simultaneously arranged in the fixing plates 105.

As shown in fig. 4, wherein the control structure 2 comprises: connecting plate A201, guide bar 202, limiting plate 203, layer board 204, control lever 205, nut 206, slider 207, connecting plate A201 is fixed connection in the both sides of conveyer belt 101 respectively, connecting plate A201's top is fixed connection guide bar 202 and control lever 205 respectively, simultaneously fixedly connected with limiting plate 203 on the guide bar 202, be connected with nut 206 on the control lever 205 in the rotation, the both sides of layer board 204 are fixed connection slider 207 respectively, slider 207 simultaneously with guide bar 202 sliding connection, and slider 207 simultaneously with nut 206 swing joint, layer board 204 sets up in the inboard of conveyer belt 103, can control clamp plate A301 to the laminating of bottom through telescopic link 407, simultaneously when clamp plate A301 laminating to conveyer belt 103, still can drive gear 405 through motor 403 rotation, and control rack frame 504 and clamp plate B501 laminating to the top of conveyer belt 103 simultaneously through gear 405, still can increase clamp plate A301's pressfitting area through clamp plate B501, clamp plate A301 and clamp plate B501's suitability is strengthened.

As shown in fig. 6, wherein the control mechanism 4 further includes: the supporting rod 401, link 402, drive belt 406, the supporting rod 401 is fixed connection respectively at the top of delivery box 101, fixed block 408 fixed connection is in one side of supporting rod 401, the opposite side fixedly connected with link 402 of supporting rod 401, link 402 simultaneously with motor 403 fixed connection, drive belt 406's both ends respectively with drive shaft 404 swing joint, can control connecting plate A201 through nut 206 and control rod 205 and go up and down, can set off conveyer belt 103 through connecting plate A201 simultaneously, conveyer belt 103 is to the bottom subsidence when avoiding the carton to carry out the pre-compaction processing, the degree of depth of unable effectual assurance indentation is applicable to the folding of carton.

As shown in fig. 5, the elevating mechanism 3 includes: clamp plate A301, sliding tray 302, fretwork groove 303, dead lever 304, elastic component 305, connecting plate B306, the both sides of clamp plate A301 are fixedly connected with connecting plate B306 respectively, connecting plate B306 fixed connection is in the bottom of telescopic link 407, clamp plate A301 is equipped with sliding tray 302 respectively all around, fretwork groove 303 sets up respectively in clamp plate A301's both sides, clamp plate A301 passes through fretwork groove 303, spacing groove A106 and fixed plate 105 sliding connection, dead lever 304 passes through sliding tray 302 fixed connection in clamp plate A301, swing joint has elastic component 305 on the dead lever 304.

As shown in fig. 7, wherein the reciprocation mechanism 5 includes: clamp plate B501, stopper 502, preformed hole 503, rack frame 504, spacing groove B505, be equipped with preformed hole 503 in the stopper 502 respectively around the clamp plate B501, stopper 502 passes through preformed hole 503, dead lever 304 sliding connection is in sliding tray 302, clamp plate B501 sets up in clamp plate A301, the top of clamp plate B501 is fixedly connected with rack frame 504 respectively, rack frame 504 meshes with gear 405 simultaneously, the both sides of clamp plate B501 are equipped with spacing groove B505, clamp plate B501 passes through spacing groove B505 and fixed plate 105 sliding connection simultaneously, clamp plate B501 sets up at the top of conveyer belt 103 simultaneously with clamp plate A301, when motor 403 and gear 405 can control rack frame 504, clamp plate B501 slides to the bottom, after gear 405 breaks away the meshing relationship with rack frame 504, clamp plate B501 can also control the automatic reset through the elastic component 305, the operation mode is comparatively simple and easy.

The working principle of the embodiment is as follows:

in the utility model, firstly, the paper board can be conveyed through the conveying belt 103, after the paper board is conveyed to a designated position, the telescopic rod 407 can be opened, the pressing plate A301 is controlled to be attached to the top of the conveying belt 103 through the telescopic rod 407, the paper board is pre-pressed through the pressing plate A301, when the width of an indentation needs to be enlarged, the motor 403 can be started, the driving shaft 404 and the gear 405 are controlled to rotate, the rack frame 504 and the pressing plate B501 can be controlled to slide to the bottom when the gear 405 rotates, the pressing plate B501 is attached to the conveying belt 103, the indentation of the paper board is enlarged, and the gear 405 can also be controlled to automatically reset through the elastic piece 305 when the gear 405 continuously rotates, so that pressing work is completed, the paper board can also rotate the nut 206 in the pressing process, the position of the nut 206 on the control rod 205 is adjusted, and then the connecting plate A is driven to lift through the nut 206, so that the situation that the paper board 103 slides to the bottom when the paper board is pressed can be effectively avoided.

Claims (6)

1. An adjustable indentation device, characterized in that: comprises a conveying structure (1); the inside swing joint of conveying structure (1) has control structure (2), and the top fixedly connected with control mechanism (4) of conveying structure (1), control mechanism (4) respectively with elevating system (3), reciprocating mechanism (5) swing joint, and reciprocating mechanism (5) swing joint is in the inside of elevating system (3), control mechanism (4) include: the motor (403), drive shaft (404), gear (405), telescopic link (407), fixed block (408), drive shaft (404) are two sets of settings, and motor (403) fixed connection is in the one end of drive shaft (404), is connected with two sets of gears (405) on drive shaft (404) respectively fixedly, and the bottom fixedly connected with telescopic link (407) of fixed block (408).

2. An adjustable indentation apparatus as claimed in claim 1, wherein: the conveying structure (1) comprises: the conveying box (101), connecting shafts (102), conveying belts (103), connecting grooves (104), fixing plates (105) and limiting grooves A (106), wherein the connecting shafts (102) are respectively and movably connected to the two sides of the conveying box (101), the conveying belts (103) are movably connected to the connecting shafts (102), the connecting grooves (104) are respectively arranged on the two sides of the conveying box (101), two groups of fixing plates (105) are fixedly connected to the top of the conveying box (101), and the limiting grooves A (106) are simultaneously formed in the fixing plates (105).

3. An adjustable indentation apparatus as claimed in claim 2, wherein: the control structure (2) comprises: connecting plate A (201), guide bar (202), limiting plate (203), layer board (204), control rod (205), nut (206), slider (207), connecting plate A (201) are fixed connection respectively in the both sides of delivery casing (101), the top of connecting plate A (201) is fixedly connected with guide bar (202) and control rod (205) respectively, simultaneously fixedly connected with limiting plate (203) on guide bar (202), rotate on control rod (205) and be connected with nut (206), both sides of layer board (204) are fixedly connected with slider (207) respectively, slider (207) simultaneously with guide bar (202) sliding connection, and slider (207) simultaneously with nut (206) swing joint, layer board (204) set up the inboard in conveyer belt (103).

4. An adjustable indentation apparatus as claimed in claim 2, wherein: the control mechanism (4) further comprises: the conveying device comprises a supporting rod (401), a connecting frame (402) and a transmission belt (406), wherein the supporting rod (401) is fixedly connected to the top of the conveying box (101) respectively, a fixing block (408) is fixedly connected to one side of the supporting rod (401), the connecting frame (402) is fixedly connected to the other side of the supporting rod (401), the connecting frame (402) is fixedly connected with a motor (403) simultaneously, and two ends of the transmission belt (406) are movably connected with a driving shaft (404) respectively.

5. An adjustable indentation apparatus as claimed in claim 4, wherein: the lifting mechanism (3) comprises: clamp plate A (301), sliding tray (302), fretwork groove (303), dead lever (304), elastic component (305), connecting plate B (306), the both sides of clamp plate A (301) are fixedly connected with connecting plate B (306) respectively, connecting plate B (306) fixedly connected with is in the bottom of telescopic link (407), be equipped with sliding tray (302) respectively around clamp plate A (301), fretwork groove (303) set up respectively in the both sides of clamp plate A (301), clamp plate A (301) pass through fretwork groove (303), spacing groove A (106) and fixed plate (105) sliding connection, dead lever (304) are in clamp plate A (301) through sliding tray (302) fixed connection, swing joint has elastic component (305) on dead lever (304).

6. An adjustable indentation apparatus as claimed in claim 5, wherein: the reciprocation mechanism (5) includes: clamp plate B (501), stopper (502), preformed hole (503), rack frame (504), spacing groove B (505), be equipped with preformed hole (503) around clamp plate B (501) respectively in stopper (502), stopper (502) are equipped with preformed hole (503) in, clamp plate B (501) set up in clamp plate A (301) through preformed hole (503), dead lever (304) sliding connection in sliding tray (302), the top of clamp plate B (501) is fixedly connected with rack frame (504) respectively, rack frame (504) meshes with gear (405) simultaneously, the both sides of clamp plate B (501) are equipped with spacing groove B (505), clamp plate B (501) are simultaneously through spacing groove B (505) and fixed plate (105) sliding connection, clamp plate B (501) and clamp plate A (301) set up at the top of conveyer belt (103) simultaneously.