CN110667270B

CN110667270B - Double-sided stamping device in assembly line

Info

Publication number: CN110667270B
Application number: CN201910938902.2A
Authority: CN
Inventors: 卓爱忠
Original assignee: Wenzhou Xindu Industrial Design Co Ltd
Current assignee: Wenzhou Xindu Industrial Design Co., Ltd
Priority date: 2019-09-30
Filing date: 2019-09-30
Publication date: 2021-03-12
Anticipated expiration: 2039-09-30
Also published as: CN110667270A

Abstract

The invention relates to a production related device, in particular to a double-sided stamping device in a production line, which comprises a protective cover body, a conveying turnover device and an automatic stamping device, wherein the protective cover body is arranged above the automatic stamping device; the device is used for stamping from top to bottom, and can operate articles with certain thickness, and the support frame is arranged below the conveyor belt of the device and can adapt to the articles with certain weight.

Description

Double-sided stamping device in assembly line

Technical Field

The invention relates to a production related device, in particular to a double-sided stamping device in a production line.

Background

For example, patent number CN201520900205.5 a soft high temperature resistant signal transmission cable, including the device of stamping that sets up in assembly line conveying bearing roller top, with paper money to block lift counterpoint baffle and supporting drive arrangement in the station below of stamping, the key lies in: the paper money supporting plate with the lifting freedom degree is correspondingly arranged on the two side frames of the conveying carrier roller below the stamping station, the side pushing aligning device and the conveying carrier roller, and the paper money supporting plate is pressed by the paper money supporting plate and the stamping device and the self-adaptive double-stamp head assembly arranged on two sides of the paper money handle form a double-sided stamping structure.

The utility model has the following disadvantages:

1. the failure probability is higher in application due to the fact that more transmission parts are used;

2. only thin paper articles can be handled, and not many articles with a certain thickness.

Disclosure of Invention

The invention mainly solves the technical problem of providing a double-sided stamping device in an assembly line, 1. the device has fewer transmission parts and can avoid the problem of excessive parts in use; 2. the device is used for stamping from top to bottom, and can operate articles with certain thickness, and the support frame is arranged below the conveyor belt of the device and can adapt to the articles with certain weight.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a two-sided device of stamping in assembly line, is including protection lid, conveying turn-over device and automatic device of stamping, its characterized in that: the protective cover body is arranged above the automatic stamping device, and the conveying turnover device is arranged below the automatic stamping device.

As a further optimization of the technical scheme, the conveying turnover device of the double-sided stamping device in the assembly line comprises a turnover device and a conveying device, wherein the conveying device is arranged on the turnover device;

the turnover device comprises a turnover mechanism, a fixed support and a fixed bottom plate, wherein the fixed support is fixedly connected to the fixed bottom plate, the turnover mechanism is movably connected with the fixed support through a shaft, and the turnover mechanism is fixedly arranged on the fixed bottom plate;

the turnover mechanism comprises a power motor A, a transmission belt wheel B, turnover pieces and a turnover piece fixing shaft, wherein the power motor A is fixedly arranged on a fixing bottom plate, the output end of the power motor A is connected with the transmission belt wheel A, the transmission belt wheel A is connected with the transmission belt wheel B through the transmission belt A, the transmission belt wheel B is fixedly connected onto the turnover piece fixing shaft, the turnover pieces are fixedly arranged on the turnover piece fixing shaft, and the turnover pieces are respectively arranged at two ends of the turnover piece fixing shaft;

the conveying device comprises a power motor B, a transmission belt wheel C, a transmission belt B, a transmission belt wheel D, a transmission belt wheel, a belt wheel fixing rod, a conveying belt and a transmission belt supporting frame, wherein the power motor B is fixedly arranged on a fixed bottom plate;

the drive belt support frame include bracing piece, fixed horizontal pole, connecting block, connecting plate, conveyer belt bracing piece, bracing piece fixed mounting is on PMKD, fixed horizontal pole is fixed on the bracing piece, fixed horizontal pole and connecting block fixed connection, connecting block and connecting plate fixed connection, the conveyer belt bracing piece is provided with two, and respectively fixed mounting is at the both ends of connecting plate.

As a further optimization of the technical scheme, the automatic stamping device of the double-sided stamping device in the assembly line comprises an automatic stamping mechanism and a support frame, wherein the support frame is fixedly arranged below the automatic stamping mechanism and is fixedly arranged on a fixed bottom plate;

the automatic stamping mechanism comprises a lower seat plate, a strong spring, an upper seat plate, a fixed rod, a stamp fixing box, a fixed block, a gear fixed rod, a power motor C, two transmission gears A, two transmission gears B, an irregular cam and four transmission gears C, wherein two ends of the strong spring are respectively and fixedly arranged on the lower seat plate and the upper seat plate, the fixed rod is fixed on the upper seat plate and is in sliding connection with the lower seat plate, the stamp fixing box is fixedly arranged on the fixed rod, the stamp fixing box is provided with two irregular cams, the upper end of the stamp fixing box is provided with four threaded holes, the fixed block is fixedly arranged on the lower seat plate, the fixed block is provided with four gear fixed rods, the two gear fixed rods are movably connected on the fixed block, the transmission gears B are fixedly arranged on the gear fixed rods, the irregular cams are fixedly arranged on the gear fixed rods, the transmission gears C, the power motor C is fixedly arranged on the lower seat plate, the output end of the power motor C is connected with a transmission gear A, and the transmission gear A is meshed with the transmission gear B through teeth.

The double-sided stamping device in the assembly line has the beneficial effects that:

1. the device has fewer transmission parts, and can avoid the problem of excessive parts in use;

2. the device is used for stamping from top to bottom, and can operate articles with certain thickness, and the support frame is arranged below the conveyor belt of the device and can adapt to the articles with certain weight.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic overall structure diagram of a double-sided stamping device in an assembly line according to the present invention.

Fig. 2 is a schematic overall three-dimensional structure diagram of a double-sided stamping device in an assembly line according to the present invention.

FIG. 3 is a schematic structural diagram of a conveying turn-over device 2 of a double-sided stamping device in an assembly line according to the present invention.

Fig. 4 is a schematic perspective view of a conveying turn-over device 2 of a double-sided stamping device in an assembly line according to the present invention.

FIG. 5 is a schematic perspective view of a turn-over device 2-1 of a double-sided stamping device in an assembly line according to the present invention.

FIG. 6 is a schematic side view of a turnover mechanism 2-1-1 of a double-sided stamping device in an assembly line.

FIG. 7 is a schematic structural diagram of a turn-over mechanism 2-1-1 of a double-sided stamping device in an assembly line.

FIG. 8 is a schematic structural diagram of a conveying device 2-2 of a double-sided stamping device in an assembly line according to the present invention.

FIG. 9 is a schematic perspective view of a conveying device 2-2 of a double-sided stamping device in an assembly line according to the present invention.

FIG. 10 is a schematic perspective view of a belt support frame 2-2-8 of a double-sided stamping device in an assembly line according to the present invention.

Fig. 11 is a schematic perspective view of an automatic stamping device 3 of a double-sided stamping device in an assembly line according to the present invention.

FIG. 12 is a schematic perspective view of an automatic stamping mechanism 3-1 of a double-sided stamping device in an assembly line.

FIG. 13 is a schematic perspective view of a seal fixing box 3-1-5 of a double-sided sealing device in an assembly line according to the present invention.

FIG. 14 is a schematic perspective view of an irregular cam 3-1-11 of a double-sided stamping device in an assembly line.

In the figure: a protective cover body 1; a conveying turn-over device 2; a turnover device 2-1; a turnover mechanism 2-1-1; a power motor A2-1-1-1; a driving belt wheel A2-1-1-2; the transmission belt A2-1-1-3; a driving belt wheel B2-1-1-4; 2-1-1-5 of turnover pieces; the turnover sheet is fixed on the shaft 2-1-1-6; a fixed support 2-1-2; 2-1-3 of a fixed bottom plate; a conveying device 2-2; a power motor B2-2-1; a driving belt wheel C2-2-2; belt B2-2-3; a driving belt wheel D2-2-4; a conveyor belt wheel 2-2-5; belt wheel fixing rods 2-2-6; 2-2-7 of a conveyor belt; 2-2-8 parts of a driving belt support frame; 2-2-8-1 of a support rod; 2-2-8-2 parts of a fixed cross bar; 2-2-8-3 parts of a connecting block; 2-2-8-4 of a connecting plate; 2-2-8-5 parts of a conveyor belt supporting rod; an automatic stamping device 3; an automatic stamping mechanism 3-1; a lower seat plate 3-1-1; a strong spring 3-1-2; an upper seat plate 3-1-3; 3-1-4 parts of a fixed rod; 3-1-5 of a seal fixing box; 3-1-6 parts of a fixed block; 3-1-7 parts of a gear fixing rod; a power motor C3-1-8; drive gear A3-1-9; drive gear B3-1-10; irregular cams 3-1-11; transfer gears C3-1-12; and (3) a support frame 3-2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 and 2, and a double-sided sealing device in an assembly line includes a protective cover 1, a conveying turnover device 2, and an automatic sealing device 3, and is characterized in that: the protective cover body 1 is arranged above the automatic stamping device 3, and the conveying turnover device 2 is arranged below the automatic stamping device 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 3, 4, 5, 6, 7, 8, 9, and 10, and the embodiment further describes the embodiment, where the conveying turn-over apparatus 2 includes a turn-over apparatus 2-1 and a conveying apparatus 2-2, and the conveying apparatus 2-2 is mounted on the turn-over apparatus 2-1;

the turn-over device 2-1 comprises a turn-over mechanism 2-1-1, a fixed support 2-1-2 and a fixed bottom plate 2-1-3, wherein the fixed support 2-1-2 is fixedly connected to the fixed bottom plate 2-1-3, the turn-over mechanism 2-1-1 is movably connected with the fixed support 2-1-2 through a shaft, and the turn-over mechanism 2-1-1 is fixedly arranged on the fixed bottom plate 2-1-3;

the turnover mechanism 2-1-1 comprises a power motor A2-1-1-1, a transmission belt wheel A2-1-1-2, a transmission belt A2-1-1-3, a transmission belt wheel B2-1-4, a turnover sheet 2-1-1-5 and a turnover sheet fixing shaft 2-1-1-6, wherein the power motor A2-1-1 is fixedly arranged on a fixed bottom plate 2-1-3, the output end of the power motor A2-1-1-1 is connected with the transmission belt wheel A2-1-1-2, the transmission belt wheel A2-1-1-2 is connected with the transmission belt wheel B2-1-1-4 through the transmission belt A2-1-1-3, the transmission belt wheels B2-1-1-4 are fixedly connected to the turnover sheet fixing shaft 2-1-1-6, the turnover sheets 2-1-1-5 are fixedly arranged on the turnover sheet fixing shaft 2-1-1-6, and two turnover sheets 2-1-1-5 are arranged at two ends of the turnover sheet fixing shaft 2-1-1-6 respectively to play a role of turning over the articles to be processed;

the conveying device 2-2 comprises a power motor B2-2-1, a transmission belt wheel C2-2-2, a transmission belt B2-2-3, a transmission belt wheel D2-2-4, a transmission belt wheel 2-2-5, a belt wheel fixing rod 2-2-6, a transmission belt 2-2-7, a transmission belt supporting frame 2-2-8, a power motor B2-2-1 is fixedly arranged on a fixing bottom plate 2-1-3, the output end of the power motor B2-2-1 is connected with a transmission belt wheel C2-2-2, the transmission belt wheel C2-2-2 is connected with the transmission belt wheel D2-2-4 through a transmission belt B2-2-3, the transmission belt wheel D2-2-4 is fixedly connected with the transmission belt wheel 2-2-5, the conveying belt wheel 2-2-5 is movably connected with a belt wheel fixing rod 2-2-6 through a shaft, the conveying belt wheel 2-2-5 is connected with a conveying belt 2-2-7, a conveying belt support frame 2-2-8 is positioned below the conveying belt 2-2-7 and is in contact with the conveying belt 2-2-7, and the conveying belt support frame 2-2-8 is fixedly arranged on a fixing bottom plate 2-1-3 and plays a role in conveying an object to be processed;

the driving belt support frame 2-2-8 comprises a support rod 2-2-8-1, a fixed cross rod 2-2-8-2, a connecting block 2-2-8-3, a connecting plate 2-2-8-4 and a driving belt support rod 2-2-8-5, wherein the support rod 2-2-8-1 is fixedly arranged on a fixed bottom plate 2-1-3, the fixed cross rod 2-2-8-2 is fixed on the support rod 2-2-8-1, the fixed cross rod 2-2-8-2 is fixedly connected with the connecting block 2-2-8-3, the connecting block 2-2-8-3 is fixedly connected with the connecting plate 2-2-8-4, two conveyor belt supporting rods 2-2-8-5 are arranged and are respectively and fixedly arranged at two ends of the connecting plate 2-2-8-4, and the conveyor belt supporting rods play a role in supporting assistance.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 11, 12, 13, and 14, and the embodiment further describes the first embodiment, where the automatic stamping device 3 includes an automatic stamping mechanism 3-1 and a support frame 3-2, the support frame 3-2 is fixedly installed below the automatic stamping mechanism 3-1, and the support frame 3-2 is fixedly installed on a fixed bottom plate 2-1-3;

the automatic stamping mechanism 3-1 comprises a lower seat plate 3-1-1, a strong spring 3-1-2, an upper seat plate 3-1-3, a fixing rod 3-1-4, a stamp fixing box 3-1-5, a fixing block 3-1-6, a gear fixing rod 3-1-7, a power motor C3-1-8, a transmission gear A3-1-9, a transmission gear B3-1-10, an irregular cam 3-1-11 and a transmission gear C3-1-12, wherein two ends of the strong spring 3-1-2 are respectively and fixedly arranged on the lower seat plate 3-1-1 and the upper seat plate 3-1-3, the fixing rod 3-1-4 is fixed on the upper seat plate 3-1-3, the fixed rod 3-1-4 is connected with the lower seat plate 3-1-1 in a sliding way, the stamp fixing box 3-1-5 is fixedly arranged on the fixed rod 3-1-4, the stamp fixing box 3-1-5 is provided with two, the upper end of the stamp fixing box 3-1-5 is provided with four threaded holes, the fixed block 3-1-6 is fixedly arranged on the lower seat plate 3-1-1, the fixed block 3-1-6 is provided with four blocks, the gear fixing rod 3-1-7 is provided with two, the gear fixing rod 3-1-7 is movably connected on the fixed block 3-1-6, the transmission gear B3-1-10 is fixedly arranged on the gear fixing rod 3-1-7, the irregular cam 3-1-11 is fixedly arranged on the gear fixing rod 3-1-7, two transmission gears C3-1-12 are arranged, the two transmission gears C3-1-12 are fixedly installed on the two gear fixing rods 3-1-7 respectively, the power motor C3-1-8 is fixedly installed on the lower seat plate 3-1-1, the output end of the power motor C3-1-8 is connected with the transmission gear A3-1-9, and the transmission gear A3-1-9 is meshed with the transmission gear B3-1-10 through teeth, so that the automatic stamping function is achieved.

The invention relates to a double-sided stamping device in an assembly line, which has the working principle that: selecting a proper seal fixing box 3-1-5, fixing the selected seal fixing box 3-1-5 on a fixing rod 3-1-4, placing a seal in the seal fixing box 3-1-5, fixing the seal by screws, placing an article to be sealed on a conveyor belt 2-2-7, starting a power motor B2-2-1, driving a transmission belt wheel C2-2-2 to rotate by the power motor B2-2-1, driving the transmission belt wheel C2-2-2 to rotate to drive a transmission belt wheel D2-2-4 to rotate by a transmission belt B2-2-3, driving the transmission belt wheel D2-2-4 to rotate to drive a conveyor belt wheel 2-2-5 to rotate, driving the conveyor belt wheel 2-2-5 to rotate to drive the conveyor belt 2-2-7 to rotate, the conveying belt 2-2-7 rotates to convey the articles, when the articles to be stamped move to be in contact with the turnover sheet 2-1-1-5, the power motor A2-1-1-1 is started, the power motor A2-1-1-1 drives the transmission belt wheel A2-1-1-2 to rotate, the transmission belt wheel A2-1-1-2 rotates to drive the transmission belt wheel B2-1-1-4 to rotate through the transmission belt A2-1-1-3, the transmission belt wheel B2-1-1-4 rotates to drive the turnover sheet 2-1-1-5 to rotate through the turnover sheet fixing shaft 2-1-1-6, the turnover sheet 2-1-1-5 rotates, and the turnover sheet 2-1-1-5 is clamped into the turnover sheet 2-1-1-5 And the groove rotates one hundred eighty degrees after the article to be stamped is clamped into the groove of the turnover sheet 2-1-1-5, so that the stamped surface of the article to be stamped is in contact with the driving conveyor belt 2-2-7, and the transport turnover function of the article is realized.

Starting a power motor C3-1-8, driving a transmission gear A3-1-9 to rotate by the power motor C3-1-8, driving a transmission gear A3-1-9 to rotate by being meshed with a transmission gear B3-1-10 so as to drive a transmission gear B3-1-10 to rotate, driving a transmission gear C3-1-12 to rotate by the rotation of a transmission gear B3-1-10 through a gear fixing rod 3-1-7, driving a transmission gear C3-1-12 to rotate by being meshed with a transmission gear C3-1-12 at the upper end of another gear fixing rod 3-1-7 so as to drive two transmission gears C3-1-12 to rotate, driving a transmission gear B3-1-10 to rotate to drive an irregular cam 3-1-11 to rotate, driving the irregular cam 3-1-11 to rotate to jack up an upper seat plate 3-, the upper seat plate 3-1-3 pulls the strong spring 3-1-2, when the upper seat plate 3-1-3 moves to the missing part of the irregular cam 3-1-11, the strong spring 3-1-2 releases elastic potential energy to drive the upper seat plate 3-1-3 to move downwards, the upper seat plate 3-1-3 moves downwards to drive the stamp fixing box 3-1-5 to move through the fixing rod 3-1-4, and the stamp fixing box 3-1-5 moves to enable the stamp arranged on the stamp fixing box 3-1-5 to contact with an article, thereby realizing the function of stamping, in the process of conveying and stamping the objects, the driving belt supporting frames 2-2-8 arranged below the driving belts 2-2-7 play a role in supporting the objects.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a two-sided device of stamping in assembly line, is including protection lid (1), conveying turn-over device (2) and automatic device of stamping (3), its characterized in that: the protective cover body (1) is arranged above the automatic stamping device (3), the conveying turnover device (2) is arranged below the automatic stamping device (3), the conveying turnover device (2) comprises a turnover device (2-1) and a conveying device (2-2), and the conveying device (2-2) is arranged on the turnover device (2-1);

the turnover device (2-1) comprises a turnover mechanism (2-1-1), a fixed support (2-1-2) and a fixed bottom plate (2-1-3), wherein the fixed support (2-1-2) is fixedly connected to the fixed bottom plate (2-1-3), the turnover mechanism (2-1-1) is movably connected with the fixed support (2-1-2) through a shaft, and the turnover mechanism (2-1-1) is fixedly arranged on the fixed bottom plate (2-1-3);

the turnover mechanism (2-1-1) comprises a power motor A (2-1-1-1), a transmission belt pulley A (2-1-1-2), a transmission belt A (2-1-1-3), a transmission belt pulley B (2-1-1-4), a turnover sheet (2-1-1-5) and a turnover sheet fixing shaft (2-1-1-6), wherein the power motor A (2-1-1-1) is fixedly arranged on a fixed base plate (2-1-3), the output end of the power motor A (2-1-1-1) is connected with the transmission belt pulley A (2-1-1-2), and the transmission belt pulley A (2-1-1-2) and the transmission belt pulley B (2-1-1-4) are connected with one another through the transmission belt A (2-1- 1-3), a transmission belt wheel B (2-1-1-4) is fixedly connected on the turnover sheet fixing shaft (2-1-1-6), the turnover sheets (2-1-1-5) are fixedly arranged on the turnover sheet fixing shaft (2-1-1-6), and two turnover sheets (2-1-1-5) are respectively arranged at two ends of the turnover sheet fixing shaft (2-1-1-6);

the conveying device (2-2) comprises a power motor B (2-2-1), a transmission belt wheel C (2-2-2), a transmission belt B (2-2-3), a transmission belt wheel D (2-2-4), a transmission belt wheel (2-2-5), a belt wheel fixing rod (2-2-6), a transmission belt (2-2-7) and a transmission belt support frame (2-2-8), wherein the power motor B (2-2-1) is fixedly arranged on a fixed bottom plate (2-1-3), the output end of the power motor B (2-2-1) is connected with the transmission belt wheel C (2-2-2), the transmission belt wheel C (2-2-2) is connected with the transmission belt wheel D (2-2-4) through the transmission belt B (2-2-3), the transmission belt wheel D (2-2-4) is fixedly connected with the transmission belt wheel (2-2-5), the transmission belt wheel (2-2-5) is movably connected with a belt wheel fixing rod (2-2-6) through a shaft, the transmission belt wheel (2-2-5) is connected with the transmission belt (2-2-7), the transmission belt support frame (2-2-8) is positioned below the transmission belt (2-2-7) and is in contact with the transmission belt (2-2-7), and the transmission belt support frame (2-2-8) is fixedly arranged on the fixing bottom plate (2-1-3);

the transmission belt support frame (2-2-8) comprises a support rod (2-2-8-1), a fixed cross rod (2-2-8-2), a connecting block (2-2-8-3), a connecting plate (2-2-8-4) and a transmission belt support rod (2-2-8-5), wherein the support rod (2-2-8-1) is fixedly arranged on a fixed bottom plate (2-1-3), the fixed cross rod (2-2-8-2) is fixed on the support rod (2-2-8-1), the fixed cross rod (2-2-8-2) is fixedly connected with the connecting block (2-2-8-3), the connecting block (2-2-8-3) is fixedly connected with the connecting plate (2-2-8-4), two conveyor belt supporting rods (2-2-8-5) are arranged and are respectively and fixedly arranged at two ends of the connecting plate (2-2-8-4).

2. The double-sided stamping device in the production line of claim 1, wherein: the automatic stamping device (3) comprises an automatic stamping mechanism (3-1) and a support frame (3-2), wherein the support frame (3-2) is fixedly arranged below the automatic stamping mechanism (3-1), and the support frame (3-2) is fixedly arranged on a fixed bottom plate (2-1-3);

the automatic stamping mechanism (3-1) comprises a lower seat plate (3-1-1), a strong spring (3-1-2), an upper seat plate (3-1-3), a fixing rod (3-1-4), a stamp fixing box (3-1-5), a fixing block (3-1-6), a gear fixing rod (3-1-7), a power motor C (3-1-8), a transmission gear A (3-1-9), a transmission gear B (3-1-10), an irregular cam (3-1-11) and a transmission gear C (3-1-12), wherein two ends of the strong spring (3-1-2) are respectively and fixedly arranged on the lower seat plate (3-1-1) and the upper seat plate (3-1-3), the fixing rods (3-1-4) are fixed on the upper seat plate (3-1-3), the fixing rods (3-1-4) are connected with the lower seat plate (3-1-1) in a sliding manner, the stamp fixing box (3-1-5) is fixedly arranged on the fixing rods (3-1-4), the stamp fixing box (3-1-5) is provided with two, the upper end of the stamp fixing box (3-1-5) is provided with four threaded holes, the fixing blocks (3-1-6) are fixedly arranged on the lower seat plate (3-1-1), the fixing blocks (3-1-6) are provided with four blocks, the gear fixing rods (3-1-7) are provided with two, the gear fixing rods (3-1-7) are movably connected on the fixing blocks (3-1-6), the two transmission gears C (3-1-12) are arranged on the gear fixing rod (3-1-7) and the irregular cam (3-1-11) is fixedly arranged on the gear fixing rod (3-1-7), and two transmission gears C (3-1-12) are respectively and fixedly arranged on the two gear fixing rods (3-1-7), a power motor C (3-1-8) is fixedly arranged on the lower seat plate (3-1-1), the output end of the power motor C (3-1-8) is connected with a transmission gear A (3-1-9), and the transmission gear A (3-1-9) is meshed with the transmission gear B (3-1-10) through teeth.