CN109717223B

CN109717223B - Pressing mechanism of dumpling machine

Info

Publication number: CN109717223B
Application number: CN201910203543.6A
Authority: CN
Inventors: 李进强; 司军伟
Original assignee: Kang He Machinery And Equipment Co ltd Chengdu
Current assignee: Kang He Machinery And Equipment Co ltd Chengdu
Priority date: 2019-03-18
Filing date: 2019-03-18
Publication date: 2024-04-09
Anticipated expiration: 2039-03-18
Also published as: CN109717223A

Abstract

The invention relates to the technical field of food processing equipment, and provides a pressing mechanism of a dumpling machine, which comprises a mounting frame, a first pressing piece and a second pressing piece which are oppositely arranged, and a sliding rail arranged on the mounting frame; the first pressing piece is provided with a first sliding block which is in sliding fit with the sliding rail, and the second pressing piece is provided with a second sliding block which is in sliding fit with the sliding rail; the driving mechanism is used for driving the first sliding block and the second sliding block to mutually approach and separate in the sliding rail; the driving mechanism comprises a space cam, a first groove and a second groove which are arranged on the outer peripheral surface of the space cam; the first sliding block is provided with a first roller in rolling fit with the first groove, and the second sliding block is provided with a second roller in rolling fit with the second groove. When the pressing mechanism is used, the motion plane of the space cam and the motion plane of the roller follower are mutually perpendicular or form an angle, so that the impact force of the space cam in the rotation process is reduced, and the noise of the pressing mechanism in the use process is reduced.

Description

Pressing mechanism of dumpling machine

Technical Field

The invention relates to the technical field of food processing equipment, in particular to a pressing mechanism of a dumpling machine.

Background

The patent with the bulletin number of CN202232844U and the name of automatic dumpling machine is provided with an inclusion mechanism, wherein the inclusion mechanism comprises a connecting plate, a mounting plate, a first supporting block, a second supporting block, a central shaft, a first cam, a connecting block, a left bracket, a right bracket, a sliding rail, a sliding block, a first die clamping block, a second die clamping block, a supporting plate and a sliding block connecting plate; the first cam is arranged on the central shaft, the first cam is provided with a first cam groove, two ends of the central shaft are arranged in the connecting plate and the mounting plate through rolling bearings respectively embedded, and one end of the central shaft is connected with the power source; the two ends of the connecting plate and the mounting plate are connected with the supporting blocks through a first supporting block, a sliding rail sleeved with a sliding block is fixedly connected with the mounting plate, the sliding block is respectively connected with a left bracket and a right bracket through a sliding block connecting plate, the connecting block is fixedly connected with the sliding block connecting plate and passes through the sliding block to be fixed in a first cam groove on a first cam through a roller, and a first matched die closing block and a second matched die closing block are respectively fixed on the left bracket and the right bracket; the support block is fixed on the frame and fixedly connected with the second support block.

The inclusion mechanism can be used for laminating and molding the dough cover, but has the following defects: 1. the cam is a plane cam, the movement plane of the cam is parallel to the movement plane of the roller follower, the diameter of the plane cam is large, the cam can receive large impact force in the rotation process, large noise is generated, the stress of the cam is uneven, and the service life of the inclusion mechanism is reduced. 2. The two rollers are simultaneously positioned in the cam groove, so that the moving modes of the two closing modules are identical, namely the moving distance and the moving speed of the two closing modules are identical, and then the pressing modes of the two closing modules are identical, so that the inclusion mechanism is only suitable for the condition that the pressing modes of the two closing modules are identical, and cannot be suitable for the condition that the pressing modes of the two closing modules are different. 3. In the laminating process of the dough sheet, flour can be adhered to the sliding rail, so that friction force between the sliding block and the sliding rail is increased, and the sliding block can be blocked on the sliding rail when serious.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: a pressing mechanism of dumpling machine is provided to reduce the impact force of cam in the rotation process.

The technical scheme adopted for solving the technical problems is as follows: the pressing mechanism of the dumpling machine comprises a mounting frame, a first pressing member and a second pressing member which are positioned below the mounting frame and are oppositely arranged, and a sliding rail which is arranged on the mounting frame; the first pressing piece is provided with a first sliding block which is in sliding fit with the sliding rail, and the second pressing piece is provided with a second sliding block which is in sliding fit with the sliding rail; the driving mechanism is used for driving the first sliding block and the second sliding block to mutually approach and separate in the sliding rail; the driving mechanism comprises a space cam rotatably arranged on the mounting frame, and a first groove and a second groove which are arranged on the peripheral surface of the space cam; the first sliding block is provided with a first roller in rolling fit with the first groove, and the second sliding block is provided with a second roller in rolling fit with the second groove.

Further, the first groove comprises a first approaching section, a first central stopping section, a first distancing section and a first end stopping section which are connected end to end; the second groove comprises a second approaching section, a second center stopping section, a second away section and a second end stopping section which are connected end to end.

Further, a plane in which a cross section of a midpoint portion in an axial direction of the space cam is located is a first reference plane, and the first groove and the second groove are symmetrical with respect to the first reference plane.

Further, the mounting frame comprises a mounting plate which is horizontally arranged; the upper surface of the mounting plate is provided with a slide rail seat, and the slide rail is mounted on the upper surface of the slide rail seat; the first sliding block is connected with the first pressing piece through a first connecting plate, and the second sliding block is connected with the second pressing piece through a second connecting plate; the mounting plate is provided with a strip-shaped groove at the position corresponding to the first connecting plate and the second connecting plate; the first connecting plate and the second connecting plate extend out of the long-strip-shaped groove and can move along the long-strip-shaped groove.

Further, the mounting frame further comprises a first side plate and a second side plate which are arranged on the upper surface of the mounting plate; one end of the space cam is rotatably arranged on the first side plate through a first rotating shaft, and the other end of the space cam is rotatably arranged on the second side plate through a second rotating shaft.

Further, a connecting piece is arranged between the first side plate and the second side plate.

Further, a sprocket is fixed on the second rotating shaft.

Further, the first rotating shaft and the second rotating shaft are integrally formed pieces.

Further, the space cam is a cylindrical cam.

The beneficial effects of the invention are as follows: when the pressing mechanism of the dumpling machine is used, the motion plane of the space cam and the motion plane of the roller follower are mutually perpendicular or form an angle, so that the impact force of the space cam in the rotation process is reduced, and the noise of the pressing mechanism in the use process is reduced. Through setting up two slots on the outer peripheral face of space cam, every slot control the mode of movement of a roller follower respectively, as long as change the shape of one of them slot, just can change the mode of movement of corresponding pressfitting, and then change the pressfitting mode of corresponding pressfitting, make this pressfitting mechanism not only can be applicable to the same condition of the pressfitting mode of two pressfitting, can be applicable to the different condition of the pressfitting mode of two pressfitting moreover. By arranging the slide rail seat below the slide rail, the flour, the stuffing splashed in the pressing process and the stuffing slurry are prevented from being directly bonded on the slide rail in the pressing process, and the moving stability of the slide block on the slide rail is ensured.

Drawings

FIG. 1 is a perspective view of a press mechanism of a dumpling machine of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a right side view of FIG. 2;

FIG. 4 is a left side view of FIG. 3;

fig. 5 is a schematic plan development view of a first groove and a second groove in the pressing mechanism of the dumpling machine.

The reference numerals in the drawings are: 101-mounting bracket, 102-first press, 103-second press, 104-slide rail, 105-first slide, 106-second slide, 107-space cam, 108-first groove, 109-second groove, 110-first roller, 111-second roller, 112-first link plate, 113-second link plate, 114-elongated slot, 115-first pivot, 116-second pivot, 117-link, 118-sprocket, 1011-mounting plate, 1012-slide rail seat, 1013-first side plate, 1014-second side plate, 1021-first bracket, 1022-first press block, 1031-second bracket, 1032-second press block, 1081-first near segment, 1082-first center stop segment, 1083-first far segment, 1084-first end stop segment, 1091-second near segment, 1092-second center stop segment, 1093-second far segment, 1094-second end stop segment.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

the pressing mechanism of the dumpling machine comprises a mounting frame 101, a first pressing member 102 and a second pressing member 103 which are positioned below the mounting frame 101 and are oppositely arranged, and a sliding rail 104 which is arranged on the mounting frame 101; the first pressing piece 102 is provided with a first sliding block 105 which is in sliding fit with the sliding rail 104, and the second pressing piece 103 is provided with a second sliding block 106 which is in sliding fit with the sliding rail 104; the device also comprises a driving mechanism for driving the first slide block 105 and the second slide block 106 to move close to and away from each other on the slide rail 104; the driving mechanism includes a space cam 107 rotatably mounted on the mounting frame 101, a first groove 108 and a second groove 109 provided on the outer peripheral surface of the space cam 107; the first slider 105 is provided with a first roller 110 in rolling fit with the first groove 108, and the second slider 106 is provided with a second roller 111 in rolling fit with the second groove 109.

As shown in fig. 1 to 4, the first pressing member 102 and the second pressing member 103 are disposed opposite to each other below the mounting frame 101, and are used for pressing the dough sheet. The sliding rail 104 is a linear sliding rail, and the first pressing piece 102 and the second pressing piece 103 are ensured to do linear reciprocating motion by arranging the first sliding block 105 and the second sliding block 106 to be in sliding fit on the sliding rail 104.

The driving mechanism is used for driving the first slider 105 and the second slider 106 to reciprocate on the sliding rail 104, so as to drive the first pressing member 102 and the second pressing member 103 to approach and separate from each other. The working principle of the driving mechanism is as follows: the space cam 107 is driven to rotate by an external power piece, and a first groove 108 on the space cam 107 drives a first sliding block 105 to reciprocate on a sliding rail 104 through a first roller 110, so that a first pressing piece 102 is driven to reciprocate; meanwhile, the second groove 109 on the space cam 107 drives the second slider 106 to reciprocate on the sliding rail 104 through the second roller 111, so as to drive the second pressing member 103 to reciprocate. When the first pressing member 102 and the second pressing member 103 are moved close to each other to the pressing position, the face skin is pressed by the first pressing member 102 and the second pressing member 103. The space cam 107 may be a cylindrical cam or a conical cam.

According to the pressing mechanism of the dumpling machine, the existing planar cam driving mode is changed into the spatial cam driving mode, and in the using process, the movement plane of the spatial cam 107 and the movement planes of the first roller 110 and the second roller 111 are mutually perpendicular or form an angle, so that the impact force born by the spatial cam 107 in the rotating process is reduced, the noise of the pressing mechanism in the using process is reduced, the stress of the spatial cam 107 is uniform, and the service life of the pressing mechanism is prolonged. Since the first groove 108 on the space cam 107 is used for controlling the reciprocating manner of the first pressing member 102, the second groove 109 on the space cam 107 is used for controlling the reciprocating manner of the second pressing member 103; therefore, the shapes of the first groove 108 and the second groove 109 can be respectively designed, so that not only the pressing mechanisms with the same moving modes of the first pressing member 102 and the second pressing member 103, but also the pressing mechanisms with different moving modes of the first pressing member 102 and the second pressing member 103 can be obtained; the above-mentioned moving means mainly refer to a moving distance and a moving rate. The pressing mechanism is not only applicable to the condition that the pressing modes of the two pressing pieces are the same, but also applicable to the condition that the pressing modes of the two pressing pieces are different, and the application range of the pressing mechanism is improved.

Fig. 5 shows one embodiment of the first groove 108 and the second groove 109, wherein the x-axis in fig. 5 is the circumferential direction of the space cam 107, and the y-axis in fig. 5 is the axial direction of the space cam 107. The first groove 108 includes a first proximal segment 1081, a first central stop segment 1082, a first distal segment 1083, and a first end stop segment 1084 that are connected end to end; the second groove 109 includes a second proximal segment 1091, a second central stop segment 1092, a second distal segment 1093, and a second end stop segment 1094, in end-to-end relation.

When the first roller 110 is on the first approaching section 1081, the first roller 110 moves from the end of the slide rail 104 toward the center as the space cam 107 rotates; when the first roller 110 is at the first center stop 1082, the position of the first roller 110 on the slide rail 104 is unchanged as the space cam 107 rotates; when the first roller 110 is in the first distal segment 1083, the first roller 110 moves from the center of the slide rail 104 toward the end as the space cam 107 rotates; when the first roller 110 stops at the first end segment 1084, the position of the first roller 110 on the slide rail 104 is unchanged as the space cam 107 rotates.

When the second roller 111 is on the second approaching section 1091, the second roller 111 moves from the end of the slide rail 104 toward the center as the space cam 107 rotates; when the second roller 111 is in the second center stop 1092, the position of the second roller 111 on the slide rail 104 is unchanged as the space cam 107 rotates; when the second roller 111 is in the second away section 1093, the second roller 111 moves from the center to the end of the slide rail 104 as the space cam 107 rotates; when the second roller 111 stops the segment 1094 at the second end, the position of the second roller 111 on the track 104 is unchanged as the space cam 107 rotates.

In the present invention, the space cam 107 is preferably a cylindrical cam, as shown in fig. 5, in the case where the circumference of the space cam 107 is unchanged, the plane where the cross section of the midpoint part in the axial direction of the space cam 107 is located is a first reference plane, and the first groove 108 and the second groove 109 may be symmetrical about the first reference plane or asymmetrical about the first reference plane. The above-mentioned cross section refers to a section perpendicular to the axis of the space cam 107.

For convenience of description, the terms "left" and "right" hereinafter refer to the left and right directions of the drawing, but do not limit the structure of the present invention.

An embodiment in which the first groove 108 and the second groove 109 are symmetrical with respect to the first reference plane will be described with reference to fig. 3 and 5, and as shown in fig. 3, the first pressing member 102 is located at the left end of the sliding rail 104, and the second pressing member 103 is located at the right end of the sliding rail 104. The space cam 107 rotates, the first roller 110 drives the first pressing piece 102 to move rightwards to the pressing position through the first sliding block 105 under the action of the first approaching section 1081, and meanwhile, the second roller 111 drives the second pressing piece 103 to move leftwards to the pressing position through the second sliding block 106 under the action of the second approaching section 1091; then, the first roller 110 drives the first pressing member 102 and the second pressing member 103 to press the dough sheet under the action of the first central stop segment 1082 and the second roller 111 drives the second pressing member 103 under the action of the second central stop segment 1092, so that the pressed time and pressure of the dough sheet are kept constant when the dough sheet is pressed; then, the first roller 110 drives the first pressing member 102 to move leftwards to the left end of the sliding rail 104 through the first slider 105 under the action of the first away section 1083, and the second roller 111 drives the second pressing member 103 to move rightwards to the right end of the sliding rail 104 through the second slider 106 under the action of the second away section 1093; the first roller 110 then maintains the position of the first press fitting 102 at the left end of the slide rail 104 under the action of the first end stop 1084, and the second roller 111 maintains the position of the second press fitting 103 at the right end of the slide rail 104 under the action of the second end stop 1094.

The mounting frame 101 plays a supporting role, as shown in fig. 1 to 4, the mounting frame 101 includes a mounting plate 1011 horizontally arranged; the upper surface of the mounting plate 1011 is provided with a slide rail seat 1012, and the slide rail 104 is mounted on the upper surface of the slide rail seat 1012; the first slider 105 is connected with the first pressing piece 102 through a first connecting plate 112, and the second slider 106 is connected with the second pressing piece 103 through a second connecting plate 113; elongated grooves 114 are formed in the mounting plate 1011 at positions corresponding to the first connecting plate 112 and the second connecting plate 113; the first connecting plate 112 and the second connecting plate 113 each extend from the elongated slot 114 and are movable along the elongated slot 114.

As shown in fig. 1 and 2, the rail seat 1012 is mounted on the upper surface of the mounting plate 1011 by a bolt, and the rail 104 is mounted on the upper surface of the rail seat 1012 by a bolt. As shown in fig. 3 and 4, the first pressing member 102 includes a first bracket 1021 and at least one first pressing block 1022 mounted on the first bracket 1021; the second pressing member 103 includes a second bracket 1031 and at least one second pressing block 1032 mounted on the second bracket 1031; the first pressing block 1022 is disposed opposite to the second pressing block 1032, and presses one or more dough sheets. The first slide block 105 and the second slide block 106 are both slidably mounted above the slide rail 104, the first roller 110 is connected with the first slide block 105 through a first roller connecting plate, and the second roller 111 is connected with the second slide block 106 through a second roller connecting plate. The two first connecting plates 112 are respectively disposed at two sides of the sliding rail 104, the upper ends of the two first connecting plates 112 are connected with the first sliding block 105, and the lower ends of the two first connecting plates 112 are connected with the first bracket 1021. The two second connecting plates 113 are respectively disposed on two sides of the sliding rail 104, the upper ends of the two second connecting plates 113 are connected with the second sliding block 106, and the lower ends of the two second connecting plates 113 are connected with the second bracket 1031.

According to the pressing mechanism of the dumpling machine, disclosed by the invention, the slide rail seat 105 is arranged below the slide rail 104, so that flour is prevented from being directly adhered to the slide rail 104 in the process of pressing the dough sheet through the first pressing piece 102 and the second pressing piece 103, and the moving stability of the first slide block 105 and the second slide block 106 on the slide rail 104 is ensured. To further avoid flour from adhering to the slide rail 104, the dustproof organ board further comprises a dustproof organ board arranged above the first pressing block 1022 and the first pressing block 1032, wherein one end of the dustproof organ board is connected with the first bracket 1021, and the other end of the dustproof organ board is connected with the second bracket 1031.

The mounting frame 101 further includes a first side plate 1013 and a second side plate 1014 provided on an upper surface of the mounting plate 1011; one end of the space cam 107 is rotatably mounted on the first side plate 1013 via the first rotation shaft 115, and the other end is rotatably mounted on the second side plate 1014 via the second rotation shaft 116. The first shaft 115 is rotatably mounted on the first side plate 1013 via a bearing structure, and the second shaft 116 is rotatably mounted on the second side plate 1014 via a bearing structure. Further, the first rotating shaft 115 and the second rotating shaft 116 are integrally formed. The space cam 107, the first rotating shaft 115 and the second rotating shaft 116 may have a hollow structure. To improve stability of the mounting frame 101, a connecting member 117 is disposed between the first side plate 1013 and the second side plate 1014, and the connecting member 117 may be a connecting plate or a connecting rod. A sprocket 118 is fixed on the second rotating shaft 116, so that the external power member is in transmission connection with the space cam 107 through a chain transmission structure.

Claims

1. The pressing mechanism of the dumpling machine comprises a mounting frame (101), a first pressing piece (102) and a second pressing piece (103) which are positioned below the mounting frame (101) and are oppositely arranged, and a sliding rail (104) which is arranged on the mounting frame (101); a first sliding block (105) which is in sliding fit with the sliding rail (104) is arranged on the first pressing piece (102), and a second sliding block (106) which is in sliding fit with the sliding rail (104) is arranged on the second pressing piece (103); the device also comprises a driving mechanism for driving the first sliding block (105) and the second sliding block (106) to approach and depart from each other on the sliding rail (104);

the driving mechanism is characterized by comprising a space cam (107) rotatably mounted on the mounting frame (101), and a first groove (108) and a second groove (109) which are arranged on the outer peripheral surface of the space cam (107); the first sliding block (105) is provided with a first roller (110) in rolling fit with the first groove (108), and the second sliding block (106) is provided with a second roller (111) in rolling fit with the second groove (109); the first groove (108) comprises a first approaching section (1081), a first central stopping section (1082), a first distancing section (1083) and a first end stopping section (1084) connected end to end; the second groove (109) comprises a second approaching section (1091), a second central stopping section (1092), a second distancing section (1093) and a second end stopping section (1094) which are connected end to end; the mounting frame (101) comprises a horizontally arranged mounting plate (1011); upper surface of mounting plate (1011) a slide rail seat (1012) is arranged, the sliding rail (104) is arranged on the slide an upper surface of the rail seat (1012); the first slider (105) is connected by a first connection the connection plate (112) is connected with the first pressing piece (102), the second slider (106) is connected with the second pressing piece (103) through a second connecting plate (113); the mounting plate (1011) is connected with the first a connection plate (112) and a second a strip-shaped groove (114) is arranged at the corresponding position of the connecting plate (113); the first connecting plate (112) and the second connecting plate 113) extend from the elongated slot (114) and can follow the strip the slot (114) moves.

2. The press-fit mechanism of a dumpling machine according to claim 1, wherein the mounting bracket (101) further comprises a first side plate (1013) and a second side plate (1014) provided on an upper surface of the mounting plate (1011); one end of the space cam (107) is rotatably mounted on the first side plate (1013) through a first rotating shaft (115), and the other end is rotatably mounted on the second side plate (1014) through a second rotating shaft (116).

3. The press-fit mechanism of a dumpling machine according to claim 2, characterized in that a connecting piece (117) is provided between the first side plate (1013) and the second side plate (1014).

4. The pressing mechanism of the dumpling machine according to claim 2, wherein a sprocket (118) is fixed on the second rotating shaft (116).

5. The press-fit mechanism of a dumpling machine according to claim 2, wherein the first and second shafts (115, 116) are integrally formed.

6. The pressing mechanism of a dumpling machine as claimed in any one of claims 1-5, characterized in that the space cam (107) is a cylindrical cam.